{"id":24,"date":"2015-02-22T20:09:44","date_gmt":"2015-02-22T20:09:44","guid":{"rendered":"http:\/\/wp\/enfold-medium-business\/?page_id=24"},"modified":"2020-12-04T14:52:35","modified_gmt":"2020-12-04T18:52:35","slug":"lab-publications","status":"publish","type":"page","link":"https:\/\/web.whoi.edu\/wankel\/lab-publications\/","title":{"rendered":"Publications"},"content":{"rendered":"<\/div><\/div><\/div><!-- close content main div --><\/div><\/div><div id='av_section_1' class='avia-section main_color avia-section-small avia-no-border-styling avia-full-stretch av-parallax-section av-section-color-overlay-active avia-bg-style-parallax  container_wrap fullsize'  data-section-bg-repeat='stretch' ><div class='av-parallax  avia-full-stretch' data-avia-parallax-ratio='0.3' style = 'background-repeat: no-repeat; background-image: url(https:\/\/web.whoi.edu\/wankel\/wp-content\/uploads\/sites\/45\/2020\/12\/vintage-typewriter.jpg); background-attachment: scroll; background-position: top center; ' ><\/div><div class='av-section-color-overlay-wrap'><div class='av-section-color-overlay' style='opacity: 0.5; background-color: #e0b943; '><\/div><div class='container' ><div class='template-page content  av-content-full alpha units'><div class='post-entry post-entry-type-page post-entry-24'><div class='entry-content-wrapper clearfix'>\n<div class=\"flex_column av_one_fifth  flex_column_div av-zero-column-padding first  \" style='border-radius:0px; '><div style=' margin-top:40px; margin-bottom:40px;'  class='hr hr-custom hr-center hr-icon-no '><span class='hr-inner   inner-border-av-border-fat' style=' width:50px; border-color:#ffffff;' ><span class='hr-inner-style'><\/span><\/span><\/div><\/div><div class=\"flex_column av_three_fifth  flex_column_div av-zero-column-padding   \" style='border-radius:0px; '><p><div style='padding-bottom:10px;color:#ffffff;font-size:40px;' class='av-special-heading av-special-heading-h1 custom-color-heading blockquote modern-quote modern-centered  av-inherit-size'><h1 class='av-special-heading-tag'  itemprop=\"headline\"  >Publications<\/h1><div class='special-heading-border'><div class='special-heading-inner-border' style='border-color:#ffffff'><\/div><\/div><\/div><br \/>\n<div style=' margin-top:40px; margin-bottom:40px;'  class='hr hr-custom hr-center hr-icon-no '><span class='hr-inner   inner-border-av-border-fat' style=' width:50px; border-color:#ffffff;' ><span class='hr-inner-style'><\/span><\/span><\/div><\/p><\/div><div class=\"flex_column av_one_fifth  flex_column_div av-zero-column-padding   \" style='border-radius:0px; '><div style=' margin-top:40px; margin-bottom:40px;'  class='hr hr-custom hr-center hr-icon-no '><span class='hr-inner   inner-border-av-border-fat' style=' width:50px; border-color:#ffffff;' ><span class='hr-inner-style'><\/span><\/span><\/div><\/div>\n\n<\/div><\/div><\/div><!-- close content main div --><\/div><\/div><\/div><div id='av_section_2' class='avia-section main_color avia-section-no-padding avia-no-shadow avia-bg-style-scroll  container_wrap fullsize'   ><div class='container' ><div class='template-page content  av-content-full alpha units'><div class='post-entry post-entry-type-page post-entry-24'><div class='entry-content-wrapper clearfix'>\n<div class='sort_width_container av-sort-yes-tax' data-portfolio-id='1' ><div id='js_sort_items' ><div class='av-current-sort-title'><span class=\"inner_sort_button\"><span>All<\/span><small class=\"av-cat-count\"> 64 <\/small><\/span><\/div><div class='sort_by_cat  '><a href=\"#\" data-filter=\"all_sort\" class=\"all_sort_button active_sort\"><span class=\"inner_sort_button\"><span>All<\/span><small class=\"av-cat-count\"> 64 <\/small><\/span><\/a><span class='text-sep 2002_sort_sep'>\/<\/span><a href=\"#\" data-filter=\"2002_sort\" class=\"2002_sort_button\" ><span class=\"inner_sort_button\"><span>2002<\/span><small class='av-cat-count'> 1 <\/small><\/span><\/a><span class='text-sep 2004_sort_sep'>\/<\/span><a href=\"#\" data-filter=\"2004_sort\" class=\"2004_sort_button\" ><span class=\"inner_sort_button\"><span>2004<\/span><small class='av-cat-count'> 2 <\/small><\/span><\/a><span class='text-sep 2005_sort_sep'>\/<\/span><a href=\"#\" data-filter=\"2005_sort\" class=\"2005_sort_button\" ><span class=\"inner_sort_button\"><span>2005<\/span><small class='av-cat-count'> 1 <\/small><\/span><\/a><span class='text-sep 2006_sort_sep'>\/<\/span><a href=\"#\" data-filter=\"2006_sort\" class=\"2006_sort_button\" ><span class=\"inner_sort_button\"><span>2006<\/span><small class='av-cat-count'> 1 <\/small><\/span><\/a><span class='text-sep 2007_sort_sep'>\/<\/span><a href=\"#\" data-filter=\"2007_sort\" class=\"2007_sort_button\" ><span class=\"inner_sort_button\"><span>2007<\/span><small class='av-cat-count'> 7 <\/small><\/span><\/a><span class='text-sep 2009_sort_sep'>\/<\/span><a href=\"#\" data-filter=\"2009_sort\" class=\"2009_sort_button\" ><span class=\"inner_sort_button\"><span>2009<\/span><small class='av-cat-count'> 1 <\/small><\/span><\/a><span class='text-sep 2010_sort_sep'>\/<\/span><a href=\"#\" data-filter=\"2010_sort\" class=\"2010_sort_button\" ><span class=\"inner_sort_button\"><span>2010<\/span><small class='av-cat-count'> 2 <\/small><\/span><\/a><span class='text-sep 2011_sort_sep'>\/<\/span><a href=\"#\" data-filter=\"2011_sort\" class=\"2011_sort_button\" ><span class=\"inner_sort_button\"><span>2011<\/span><small class='av-cat-count'> 4 <\/small><\/span><\/a><span class='text-sep 2012_sort_sep'>\/<\/span><a href=\"#\" data-filter=\"2012_sort\" class=\"2012_sort_button\" ><span class=\"inner_sort_button\"><span>2012<\/span><small class='av-cat-count'> 2 <\/small><\/span><\/a><span class='text-sep 2013_sort_sep'>\/<\/span><a href=\"#\" data-filter=\"2013_sort\" class=\"2013_sort_button\" ><span class=\"inner_sort_button\"><span>2013<\/span><small class='av-cat-count'> 2 <\/small><\/span><\/a><span class='text-sep 2014_sort_sep'>\/<\/span><a href=\"#\" data-filter=\"2014_sort\" class=\"2014_sort_button\" ><span class=\"inner_sort_button\"><span>2014<\/span><small class='av-cat-count'> 2 <\/small><\/span><\/a><span class='text-sep 2015_sort_sep'>\/<\/span><a href=\"#\" data-filter=\"2015_sort\" class=\"2015_sort_button\" ><span class=\"inner_sort_button\"><span>2015<\/span><small class='av-cat-count'> 2 <\/small><\/span><\/a><span class='text-sep 2016_sort_sep'>\/<\/span><a href=\"#\" data-filter=\"2016_sort\" class=\"2016_sort_button\" ><span class=\"inner_sort_button\"><span>2016<\/span><small class='av-cat-count'> 4 <\/small><\/span><\/a><span class='text-sep 2017_sort_sep'>\/<\/span><a href=\"#\" data-filter=\"2017_sort\" class=\"2017_sort_button\" ><span class=\"inner_sort_button\"><span>2017<\/span><small class='av-cat-count'> 4 <\/small><\/span><\/a><span class='text-sep 2018_sort_sep'>\/<\/span><a href=\"#\" data-filter=\"2018_sort\" class=\"2018_sort_button\" ><span class=\"inner_sort_button\"><span>2018<\/span><small class='av-cat-count'> 4 <\/small><\/span><\/a><span class='text-sep 2019_sort_sep'>\/<\/span><a href=\"#\" data-filter=\"2019_sort\" class=\"2019_sort_button\" ><span class=\"inner_sort_button\"><span>2019<\/span><small class='av-cat-count'> 7 <\/small><\/span><\/a><span class='text-sep 2020_sort_sep'>\/<\/span><a href=\"#\" data-filter=\"2020_sort\" class=\"2020_sort_button\" ><span class=\"inner_sort_button\"><span>2020<\/span><small class='av-cat-count'> 11 <\/small><\/span><\/a><span class='text-sep 2021_sort_sep'>\/<\/span><a href=\"#\" data-filter=\"2021_sort\" class=\"2021_sort_button\" ><span class=\"inner_sort_button\"><span>2021<\/span><small class='av-cat-count'> 6 <\/small><\/span><\/a><\/div><\/div><\/div><div class=' grid-sort-container isotope no_margin-container with-excerpt-container grid-total-even grid-col-2 grid-links-' data-portfolio-id='1'><div data-ajax-id='1271' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-1271 grid-entry-overview grid-loop-1 grid-parity-odd  2021_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/the-abiotic-oxidation-of-nitrite-by-ligand-bound-mniii-the-chemical-mechanism\/' title='The abiotic oxidation of nitrite by ligand-bound Mn(III): the chemical mechanism'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/the-abiotic-oxidation-of-nitrite-by-ligand-bound-mniii-the-chemical-mechanism\/' title='The abiotic oxidation of nitrite by ligand-bound Mn(III): the chemical mechanism'>The abiotic oxidation of nitrite by ligand-bound Mn(III): the chemical mechanism<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Luther III G, JS Karolewski*, KM Sutherland*, CM Hansel and SD Wankel. 2021. The abiotic oxidation of nitrite by ligand-bound Mn(III): the chemical mechanism. <b>Aquatic Geochemistry<\/b> 27:207-220. doi:10.1007\/s10498-021-09396-0. <\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='1270' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-1270 grid-entry-overview grid-loop-2 grid-parity-even  2021_sort  av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/discovery-and-quantification-of-anaerobic-nitrogen-metabolism-among-oxygenated-tropical-stony-corals\/' title='Discovery and quantification of anaerobic nitrogen metabolism among oxygenated tropical stony corals'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/discovery-and-quantification-of-anaerobic-nitrogen-metabolism-among-oxygenated-tropical-stony-corals\/' title='Discovery and quantification of anaerobic nitrogen metabolism among oxygenated tropical stony corals'>Discovery and quantification of anaerobic nitrogen metabolism among oxygenated tropical stony corals<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Babbin AR, T Tamasi, D Dumit, L Weber, MV Iglesias-Rodriguez, S Schwartz, M Armenteros, SD Wankel, and A Apprill. 2021. Discovery and quantification of anaerobic nitrogen metabolism among oxygenated tropical stony corals. <b>ISME Journal<\/b>: 15:1222-1235. doi:10.1038\/s41396-020\u201400845-2. <\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='1273' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-1273 grid-entry-overview grid-loop-3 grid-parity-odd  2021_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/the-redox-fate-of-hydrogen-peroxide-in-the-marine-water-column\/' title='The redox fate of hydrogen peroxide in the marine water column'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/the-redox-fate-of-hydrogen-peroxide-in-the-marine-water-column\/' title='The redox fate of hydrogen peroxide in the marine water column'>The redox fate of hydrogen peroxide in the marine water column<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Sutherland* KS, KC Grabb, JS Karolewski*, L Taenzer*, CM Hansel and SD Wankel. 2021. The redox fate of hydrogen peroxide in the marine water column. <b>Limnology and Oceanography<\/b> 66:3828-3841. <\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='1272' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-1272 grid-entry-overview grid-loop-4 grid-parity-even  2021_sort  av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/multiple-integrated-metabolic-strategies-allow-two-foraminferan-protists-to-thrive-in-marine-chemocline-sediments\/' title='Multiple integrated metabolic strategies allow two foraminferan protists to thrive in marine chemocline sediments'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/multiple-integrated-metabolic-strategies-allow-two-foraminferan-protists-to-thrive-in-marine-chemocline-sediments\/' title='Multiple integrated metabolic strategies allow two foraminferan protists to thrive in marine chemocline sediments'>Multiple integrated metabolic strategies allow two foraminferan protists to thrive in marine chemocline sediments<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Gomaa F, D Utter, C Powers, CJ Bowdoin, VP Edgcomb, HL Fillipsson, CM Hansel, SD Wankel, Y Zhang, and JM Bernhard. 2021. Multiple integrated metabolic strategies allow two foraminferan protists to thrive in marine chemocline sediments. <b>Science Advances<\/b> 7:22 doi:10.1126\/sciadv.abf1586. <\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='1147' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-1147 grid-entry-overview grid-loop-5 grid-parity-odd  2021_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/an-isotopic-investigation-of-nitrite-oxidation-by-ligand-bound-mniii\/' title='An isotopic investigation of nitrite oxidation by ligand-bound Mn(III)'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/an-isotopic-investigation-of-nitrite-oxidation-by-ligand-bound-mniii\/' title='An isotopic investigation of nitrite oxidation by ligand-bound Mn(III)'>An isotopic investigation of nitrite oxidation by ligand-bound Mn(III)<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Karolewski*, JS, KM Sutherland*, CM Hansel and SD Wankel. 2021. An isotopic investigation of nitrite oxidation by ligand-bound Mn(III). <b>Geochimica et Cosmochimica Acta<\/b>. 293:365-378. doi:10.1016\/j.gca.2020.11.004.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='1146' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-1146 grid-entry-overview grid-loop-6 grid-parity-even  2021_sort  av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/limited-iodate-reduction-in-shipboard-seawater-incubations-from-the-eastern-tropical-north-pacific-oxygen-deficient-zone\/' title='Limited iodate reduction in shipboard seawater incubations from the Eastern Tropical North Pacific oxygen deficient zone'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/limited-iodate-reduction-in-shipboard-seawater-incubations-from-the-eastern-tropical-north-pacific-oxygen-deficient-zone\/' title='Limited iodate reduction in shipboard seawater incubations from the Eastern Tropical North Pacific oxygen deficient zone'>Limited iodate reduction in shipboard seawater incubations from the Eastern Tropical North Pacific oxygen deficient zone<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Hardisty, DS, TJ Horner, R Moriyasu, ZC Evans, AR Babbin, SD Wankel, JW Moffett, and SG Nielsen. 2021. Limited in situ iodate reduction within the Eastern Tropical North Pacific Oxygen Deficient Zone. <b>Earth and Planetary Science Letters<\/b>: doi:10.1016\/j.epsl.2020.116676. <\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='1145' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-1145 grid-entry-overview grid-loop-7 grid-parity-odd  2020_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/spectroscopic-insights-into-ferromanganese-crust-formation-and-diagenesis\/' title='Spectroscopic Insights Into Ferromanganese Crust Formation and Diagenesis'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/spectroscopic-insights-into-ferromanganese-crust-formation-and-diagenesis\/' title='Spectroscopic Insights Into Ferromanganese Crust Formation and Diagenesis'>Spectroscopic Insights Into Ferromanganese Crust Formation and Diagenesis<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Sutherland*, KM, SD Wankel, JR Hein and CM Hansel. Spectroscopic insights into ferromanganese crust formation and diagenesis. <b>Geochemistry, Geophysics, Geosystems<\/b>. 21:11. doi:10.1029\/2020GC009074. <\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='1144' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-1144 grid-entry-overview grid-loop-8 grid-parity-even  2020_sort  av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/influence-of-%ce%b418o-of-water-on-measurements-of-%ce%b418o-of-nitrite-and-nitrate\/' title='Influence of \u03b418O of water on measurements of \u03b418O of nitrite and nitrate'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/influence-of-%ce%b418o-of-water-on-measurements-of-%ce%b418o-of-nitrite-and-nitrate\/' title='Influence of \u03b418O of water on measurements of \u03b418O of nitrite and nitrate'>Influence of \u03b418O of water on measurements of \u03b418O of nitrite and nitrate<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Kobyashi, K., K. Fukushima, Y Onishi, K Nishina, A Makabe, SD Wankel, K Koba, and S Okabe. Influence of \u03b418O of water on measurements of \u03b418O of nitrite and nitrate. <b>Rapid Communications in Mass Spectrometry<\/b>. 35:2. doi:10.1002\/rcm.8979. <\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='1143' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-1143 grid-entry-overview grid-loop-9 grid-parity-odd  2020_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/spatial-heterogeneity-in-particle%e2%80%90associated-light%e2%80%90independent-superoxide-production-within-productive-coastal-waters\/' title='Spatial Heterogeneity in Particle\u2010Associated, Light\u2010Independent Superoxide Production Within Productive Coastal Waters'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/spatial-heterogeneity-in-particle%e2%80%90associated-light%e2%80%90independent-superoxide-production-within-productive-coastal-waters\/' title='Spatial Heterogeneity in Particle\u2010Associated, Light\u2010Independent Superoxide Production Within Productive Coastal Waters'>Spatial Heterogeneity in Particle\u2010Associated, Light\u2010Independent Superoxide Production Within Productive Coastal Waters<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Sutherland KM*, KC Grabb, JS Karolewski*, S Plummer, G Farfan, SD Wankel, J Diaz, C Lamborg, and CM Hansel. Spatial heterogeneity in particle-associated, light-independent superoxide production within productive coastal waters.  <b>JGR Oceans<\/b>. 125:10. doi:10.1029\/2020JC016747 <\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='1142' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-1142 grid-entry-overview grid-loop-10 grid-parity-even  2020_sort  av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/the-isotopic-imprint-of-life-on-an-evolving-planet\/' title='The Isotopic Imprint of Life on an Evolving Planet'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/the-isotopic-imprint-of-life-on-an-evolving-planet\/' title='The Isotopic Imprint of Life on an Evolving Planet'>The Isotopic Imprint of Life on an Evolving Planet<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Lloyd M, HH McClelland, G Antler, AS Bradley, I Halevy, C Junium, SD Wankel and A Zerkle. Geochemical consequences of life on an evolving planet. <b>Space Science Reviews<\/b>. 216:112 doi:10.1007\/s11214-020-00730-6 <\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='1141' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-1141 grid-entry-overview grid-loop-11 grid-parity-odd  2020_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/impact-of-reactive-surfaces-on-the-abiotic-reaction-of-nitrite-and-ferrous-iron-and-associated-nitrogen-and-oxygen-isotope-dynamics\/' title='Impact of reactive surfaces on the abiotic reaction of nitrite and ferrous iron and associated nitrogen and oxygen isotope dynamics'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/impact-of-reactive-surfaces-on-the-abiotic-reaction-of-nitrite-and-ferrous-iron-and-associated-nitrogen-and-oxygen-isotope-dynamics\/' title='Impact of reactive surfaces on the abiotic reaction of nitrite and ferrous iron and associated nitrogen and oxygen isotope dynamics'>Impact of reactive surfaces on the abiotic reaction of nitrite and ferrous iron and associated nitrogen and oxygen isotope dynamics<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Visser AN, SD Wankel, P Niklaus, JM Byrne, A Kappler, and MF Lehmann. 2020. Impact of reactive surfaces on the abiotic reaction of nitrite and ferrous iron and associated nitrogen and oxygen isotope dynamics. <b>Biogeosciences<\/b>. 7:4355-4374. doi:10.5194\/bg-17-4355-2020. <\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='1140' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-1140 grid-entry-overview grid-loop-12 grid-parity-even  2020_sort  av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/anaerobic-nitrite-oxidation-a-major-nitrogen-cycle-pathway-in-the-oxygen-deficient-zones-of-the-ocean\/' title='Anaerobic nitrite oxidation, a major nitrogen cycle pathway in the oxygen deficient zones of the ocean'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/anaerobic-nitrite-oxidation-a-major-nitrogen-cycle-pathway-in-the-oxygen-deficient-zones-of-the-ocean\/' title='Anaerobic nitrite oxidation, a major nitrogen cycle pathway in the oxygen deficient zones of the ocean'>Anaerobic nitrite oxidation, a major nitrogen cycle pathway in the oxygen deficient zones of the ocean<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Babbin AR, C Buchwald*, FMM Morel, SD Wankel, and BB Ward. 2020. Anaerobic nitrite oxidation, a major nitrogen cycle pathway in the oxygen deficient zones of the ocean. <b>Marine Chemistry<\/b>. 224:103814. doi:10.1016\/j.marchem.2020.103814. <\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='1066' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-1066 grid-entry-overview grid-loop-13 grid-parity-odd  2020_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/euphotic-zone-nitrification-in-the-california-current-ecosystem\/' title='Euphotic Zone Nitrification in the California Current Ecosystem'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/euphotic-zone-nitrification-in-the-california-current-ecosystem\/' title='Euphotic Zone Nitrification in the California Current Ecosystem'>Euphotic Zone Nitrification in the California Current Ecosystem<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Stephens, BM, SD Wankel, JM Beman, A Rabines, AE Allen, and L Aluwihare. Euphotic Zone Nitrification in the California Current Ecosystem. <b>Limnology and Oceanography. <\/b>doi:10.1002\/lno.11348.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='1137' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-1137 grid-entry-overview grid-loop-14 grid-parity-even  2020_sort  av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/ferromanganese-crusts-as-recorders-of-marine-dissolved-oxygen\/' title='Ferromanganese crusts as recorders of marine dissolved oxygen'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/ferromanganese-crusts-as-recorders-of-marine-dissolved-oxygen\/' title='Ferromanganese crusts as recorders of marine dissolved oxygen'>Ferromanganese crusts as recorders of marine dissolved oxygen<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Sutherland*, KM, JAG Wostbrock, CM Hansel, ZD Sharp, JR Hein and SD Wankel. 2020. Ferromanganese crusts as geological recorders of marine dissolved oxygen. <b>Earth and Planetary Science Letters<\/b>. 533:116057. doi:10.1016\/j.epsl.2019.116057. <\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='1136' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-1136 grid-entry-overview grid-loop-15 grid-parity-odd  2020_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/ebullition-of-oxygen-from-seagrasses-under-supersaturated-conditions\/' title='Ebullition of oxygen from seagrasses under supersaturated conditions'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/ebullition-of-oxygen-from-seagrasses-under-supersaturated-conditions\/' title='Ebullition of oxygen from seagrasses under supersaturated conditions'>Ebullition of oxygen from seagrasses under supersaturated conditions<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Long, MH, KM Sutherland*, SD Wankel, DJ Burdige, and RC Zimmerman. 2020. Quantifying ebullition of oxygen from seagrass under super-saturated conditions. <b>Limnology and Oceanography<\/b>. doi:10.1002\/lno.11299.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='1139' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-1139 grid-entry-overview grid-loop-16 grid-parity-even   av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/nitrate-sources-and-isotopic-composition-in-the-catchment-of-the-rhone-river\/' title='Nitrate sources and isotopic composition in the catchment of the Rh\u00f4ne River'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/nitrate-sources-and-isotopic-composition-in-the-catchment-of-the-rhone-river\/' title='Nitrate sources and isotopic composition in the catchment of the Rh\u00f4ne River'>Nitrate sources and isotopic composition in the catchment of the Rh\u00f4ne River<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Bratek A, KC Emeis, T Sanders, SD Wankel, U Struck, J M\u00f6bius and K D\u00e4hnke. 2020. Nitrate sources and isotopic composition in the catchment of the Rh\u00f4ne River. <b>Isotopes in Environmental and Health Studies<b \/>. 56:14-35. doi:10.1080\/10256016.2020.1723580. <\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='1138' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-1138 grid-entry-overview grid-loop-17 grid-parity-odd  2020_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/the-ocean-oxygen-budget-revisited-new-consideration-of-dark-extracellular-superoxide-production\/' title='The ocean oxygen budget revisited: New consideration of dark extracellular superoxide production'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/the-ocean-oxygen-budget-revisited-new-consideration-of-dark-extracellular-superoxide-production\/' title='The ocean oxygen budget revisited: New consideration of dark extracellular superoxide production'>The ocean oxygen budget revisited: New consideration of dark extracellular superoxide production<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Sutherland*, KM, SD Wankel and CM Hansel. 2020. The ocean oxygen budget revisited: New consideration of dark extracellular superoxide production. <b>Proceedings of the National Academy of Sciences <\/b> 117:3433-3439. doi:10.1073\/pnas.1912313117. <\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='1067' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-1067 grid-entry-overview grid-loop-18 grid-parity-even  2020_sort  av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/experimental-observations-of-marine-iodide-oxidation-using-a-novel-sparge-interface-mc-icp-ms-technique\/' title='Experimental observations of marine iodide oxidation using a novel sparge-interface MC-ICP-MS technique'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/experimental-observations-of-marine-iodide-oxidation-using-a-novel-sparge-interface-mc-icp-ms-technique\/' title='Experimental observations of marine iodide oxidation using a novel sparge-interface MC-ICP-MS technique'>Experimental observations of marine iodide oxidation using a novel sparge-interface MC-ICP-MS technique<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Hardisty, DS, TJ Horner, SD Wankel, J Blusztajn and SG Nielsen. 2020. Experimental observations of marine iodide oxidation using a novel sparge-interface MC-ICP-MS technique. <b>Chemical Geology.<\/b> 532:119360. doi:10.1016\/j.chemgeo.2019.119360.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='1068' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-1068 grid-entry-overview grid-loop-19 grid-parity-odd  2019_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/development-of-a-handheld-submersible-chemiluminescent-sensor-quantification-of-superoxide-at-coral-surfaces\/' title='Development of a Handheld Submersible Chemiluminescent Sensor: Quantification of Superoxide at Coral Surfaces'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/development-of-a-handheld-submersible-chemiluminescent-sensor-quantification-of-superoxide-at-coral-surfaces\/' title='Development of a Handheld Submersible Chemiluminescent Sensor: Quantification of Superoxide at Coral Surfaces'>Development of a Handheld Submersible Chemiluminescent Sensor: Quantification of Superoxide at Coral Surfaces<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Grabb, KC, J Kapit, SD Wankel, K Manganini, A Apprill, and CM Hansel. 2019. A diver operated submersible chemiluminescent sensor (DISCO) for coral reef studies of reactive oxygen species associated with coral health. <b>Environmental Science and Technology<\/b>. doi:10.1021\/acs.est.9b04022.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='1064' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-1064 grid-entry-overview grid-loop-20 grid-parity-even  2019_sort  av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/extracellular-superoxide-production-among-key-microbes-within-the-global-ocean\/' title='Extracellular superoxide production among key microbes within the global ocean'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/extracellular-superoxide-production-among-key-microbes-within-the-global-ocean\/' title='Extracellular superoxide production among key microbes within the global ocean'>Extracellular superoxide production among key microbes within the global ocean<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Sutherland*, KM, A Coe, RJ Gast, S Plummer, CP Suffridge, JM Diaz, JS Bowman, SD Wankel and CM Hansel. 2019. Extracellular superoxide production among key microbes within the global ocean. <b>Limnology and Oceanography.<\/b> doi:10.1002\/lno.11247.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='1058' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-1058 grid-entry-overview grid-loop-21 grid-parity-odd  2019_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/archaea-dominate-oxic-subseafloor-communities-over-multiple-million-year-timescales\/' title='Archaea dominate oxic subseafloor communities over multiple million year timescales'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/archaea-dominate-oxic-subseafloor-communities-over-multiple-million-year-timescales\/' title='Archaea dominate oxic subseafloor communities over multiple million year timescales'>Archaea dominate oxic subseafloor communities over multiple million year timescales<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Vuillemin A, SD Wankel, \u00d6K Coskun, T Magritsch, S Vargas, ER Estes, AJ Spivack, DC Smith, R Pockalny, RW Murray, S D\u2019Hondt and WD Orsi. 2019. Archaea dominate oxic subseafloor communities over multiple million year timescales.  <b>Science Adv.<\/b> 5:6. doi:10.1126\/sciadv.eaaw4108.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='1060' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-1060 grid-entry-overview grid-loop-22 grid-parity-even  2019_sort  av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/recent-increases-in-water-column-denitrification-in-the-seasonally-anoxic-bottom-waters-of-the-santa-barbara-basin\/' title='Recent increases in water column denitrification in the seasonally anoxic bottom waters of the Santa Barbara Basin.'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/recent-increases-in-water-column-denitrification-in-the-seasonally-anoxic-bottom-waters-of-the-santa-barbara-basin\/' title='Recent increases in water column denitrification in the seasonally anoxic bottom waters of the Santa Barbara Basin.'>Recent increases in water column denitrification in the seasonally anoxic bottom waters of the Santa Barbara Basin.<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >White, M, PA Rafter, BM Stephens, SD Wankel and L Aluwihare. 2019. Recent increases in water column denitrification in the seasonally anoxic bottom waters of the Santa Barbara Basin. <b>Geophysical Research Letters.<\/b> 46. doi:10.1029\/2019GL082075.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='1061' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-1061 grid-entry-overview grid-loop-23 grid-parity-odd  2019_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/stable-oxygen-isotope-%ce%b418o-composition-sensitively-traces-photochemical-hydrocarbon-oxidation-at-the-sea-surface\/' title='Stable oxygen isotope (\u03b418O) composition sensitively traces photochemical hydrocarbon oxidation at the sea surface.'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/stable-oxygen-isotope-%ce%b418o-composition-sensitively-traces-photochemical-hydrocarbon-oxidation-at-the-sea-surface\/' title='Stable oxygen isotope (\u03b418O) composition sensitively traces photochemical hydrocarbon oxidation at the sea surface.'>Stable oxygen isotope (\u03b4<s>18<\/s>O) composition sensitively traces photochemical hydrocarbon oxidation at the sea surface.<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Ward, CP, CM Sharpless, DL Valentine, C Aeppli, KM Sutherland, SD Wankel and CM Reddy. 2019. Stable oxygen isotope (\u03b418O) composition sensitively traces photochemical hydrocarbon oxidation at the sea surface. <b>Geophysical Research Letters.<\/b> 46:12, p6745-6754.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='1041' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-1041 grid-entry-overview grid-loop-24 grid-parity-even  2019_sort  av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/quantifying-population-specific-activities-in-benthic-bacterial-communities-under-low-oxygen-using-h218o\/' title='Quantifying population-specific activities in benthic bacterial communities under low oxygen using 18O-H2O'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/quantifying-population-specific-activities-in-benthic-bacterial-communities-under-low-oxygen-using-h218o\/' title='Quantifying population-specific activities in benthic bacterial communities under low oxygen using 18O-H2O'>Quantifying population-specific activities in benthic bacterial communities under low oxygen using 18O-H2O<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Coskun, \u00d6K, V \u00d6zen, SD Wankel and WD Orsi. 2019. Quantifying population-specific activities in benthic bacterial communities under low O2 using H218O. <b>ISME Journal<\/b>. doi:10.1038\/s41396-019-0373-4.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='1040' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-1040 grid-entry-overview grid-loop-25 grid-parity-odd  2019_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/persistent-organic-matter-in-oxic-subseafloor-sediment\/' title='Persistent organic matter in oxic subseafloor sediment'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/persistent-organic-matter-in-oxic-subseafloor-sediment\/' title='Persistent organic matter in oxic subseafloor sediment'>Persistent organic matter in oxic subseafloor sediment<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Estes ER, RA Pockalny, S D\u2019Hondt, F Inagaki, Y Morono, RW Murray, D Nordlund, AJ Spivack, SD Wankel, N Xiao, and CM Hansel. 2019. Spectroscopic windows in to the persistence of organic carbon in oxygenated marine sediment. <b>Nature Geoscience<\/b>. 12:126-137.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='1034' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-1034 grid-entry-overview grid-loop-26 grid-parity-even  2018_sort  av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/isotopic-constraints-on-nitrogen-transformation-rates-in-the-deep-sedimentary-biosphere\/' title='Isotopic constraints on nitrogen transformation rates in the deep sedimentary biosphere'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/isotopic-constraints-on-nitrogen-transformation-rates-in-the-deep-sedimentary-biosphere\/' title='Isotopic constraints on nitrogen transformation rates in the deep sedimentary biosphere'>Isotopic constraints on nitrogen transformation rates in the deep sedimentary biosphere<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Buchwald C, K Homola, AJ Spivack, ER Estes, RA Pockalny, RW Murray and SD Wankel. 2018. Isotopic constraints on nitrogen transformation rates in the deep sedimentary biosphere. <b>Global Biogeochemical Cycles<\/b>. doi:10.1029\/2018GB005948<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='1036' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-1036 grid-entry-overview grid-loop-27 grid-parity-odd  2018_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/rapid-mapping-of-methane-and-carbon-dioxide-in-coastal-ecosystems-using-the-chemyak-an-autonomous-surface-vehicle\/' title='Rapid mapping of methane and carbon dioxide in coastal ecosystems using the ChemYak, an autonomous surface vehicle'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/rapid-mapping-of-methane-and-carbon-dioxide-in-coastal-ecosystems-using-the-chemyak-an-autonomous-surface-vehicle\/' title='Rapid mapping of methane and carbon dioxide in coastal ecosystems using the ChemYak, an autonomous surface vehicle'>Rapid mapping of methane and carbon dioxide in coastal ecosystems using the ChemYak, an autonomous surface vehicle<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Nicholson D, APM Michel, SD Wankel, K Manganini, R Sugrue, Z Sandwith and S Monk. 2018. Rapid mapping of methane and carbon dioxide in coastal ecosystems using the ChemYak, an autonomous surface vehicle. <b>Environmental Science and Technology<\/b>.doi:10.1021\/acs.est8b04190.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='1035' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-1035 grid-entry-overview grid-loop-28 grid-parity-even  2018_sort  av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/improved-efficiency-of-the-biological-pump-as-a-trigger-for-the-late-ordovician-glaciation\/' title='Improved efficiency of the biological pump as a trigger for the late Ordovician glaciation'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/improved-efficiency-of-the-biological-pump-as-a-trigger-for-the-late-ordovician-glaciation\/' title='Improved efficiency of the biological pump as a trigger for the late Ordovician glaciation'>Improved efficiency of the biological pump as a trigger for the late Ordovician glaciation<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Shen J, A Pearson, G Henkes, Y Zhang, K Chen, SD Wankel and Y Shen. 2018. Improved efficiency of the biological pump as a trigger for the late Ordovician glaciation. <b>Nature Geoscience<\/b>. 11:510-514.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='1032' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-1032 grid-entry-overview grid-loop-29 grid-parity-odd  2018_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/oxygen-isotope-analysis-of-bacterial-and-fungal-manganese-oxides\/' title='Oxygen isotope analysis of bacterial and fungal manganese oxides'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/oxygen-isotope-analysis-of-bacterial-and-fungal-manganese-oxides\/' title='Oxygen isotope analysis of bacterial and fungal manganese oxides'>Oxygen isotope analysis of bacterial and fungal manganese oxides<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Sutherland KM, CM Hansel and SD Wankel. 2018. Oxygen isotope analysis of bacterial and fungal manganese oxides. <b>Geobiology<\/b>. doi: 10.1111\/gbi.12288<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='1030' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-1030 grid-entry-overview grid-loop-30 grid-parity-even  2017_sort  av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/in-situ-carbon-isotope-exploration-of-an-active-submarine-volcano\/' title='In situ carbon isotope exploration of an active submarine volcano'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/in-situ-carbon-isotope-exploration-of-an-active-submarine-volcano\/' title='In situ carbon isotope exploration of an active submarine volcano'>In situ carbon isotope exploration of an active submarine volcano<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Michel APM, SD Wankel, J Kapit, Z Sandwith and PR Girguis. 2017. In situ carbon isotope exploration of an active submarine volcano. <b>Deep Sea Research Part II<\/b>. 150:57-66. doi:10.1016\/j.dsr2.2017.10.004<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='1076' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-1076 grid-entry-overview grid-loop-31 grid-parity-odd  2017_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/evidence-for-fungal-and-chemodenitrification-based-n2o-flux-from-nitrogen-impacted-coastal-sediments\/' title='Evidence for fungal and chemodenitrification based N2O flux from nitrogen impacted coastal sediments'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/evidence-for-fungal-and-chemodenitrification-based-n2o-flux-from-nitrogen-impacted-coastal-sediments\/' title='Evidence for fungal and chemodenitrification based N2O flux from nitrogen impacted coastal sediments'>Evidence for fungal and chemodenitrification based N2O flux from nitrogen impacted coastal sediments<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Wankel SD, W Ziebis, C Buchwald, C Charoenpong, D de Beer, J Dentinger, Z Xu, K Zengler. 2017. Evidence for non-traditional N2O formation pathways in nitrogen-impacted coastal ecosystems: fungal and chemodenitrification. <b>Nature Communications.<\/b> doi: 10.1038\/NCOMMS15595. <\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='988' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-988 grid-entry-overview grid-loop-32 grid-parity-even  2017_sort  av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/a-dual-nitrite-isotopic-investigation-of-chemodenitrification-by-mineral-associated-feii-and-its-production-of-nitrous-oxide\/' title='A dual nitrite isotopic investigation of chemodenitrification by mineral-associated Fe(II) and its production of nitrous oxide'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/a-dual-nitrite-isotopic-investigation-of-chemodenitrification-by-mineral-associated-feii-and-its-production-of-nitrous-oxide\/' title='A dual nitrite isotopic investigation of chemodenitrification by mineral-associated Fe(II) and its production of nitrous oxide'>A dual nitrite isotopic investigation of chemodenitrification by mineral-associated Fe(II) and its production of nitrous oxide<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Grabb KC, C Buchwald, C Hansel and SD Wankel. 2017. A dual nitrite isotopic investigation of chemodenitrification by mineral-associated Fe(II) and its production of nitrous oxide. <b>Geochimica et Cosmochimica Acta<\/b>. 196:388-402. <\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='989' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-989 grid-entry-overview grid-loop-33 grid-parity-odd  2017_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/evidence-for-microbial-mediation-of-subseafloor-nitrogen-redox-processes-at-loihi-seamount-hawaii\/' title='Evidence for microbial mediation of subseafloor nitrogen redox processes at Loihi Seamount, Hawaii'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/evidence-for-microbial-mediation-of-subseafloor-nitrogen-redox-processes-at-loihi-seamount-hawaii\/' title='Evidence for microbial mediation of subseafloor nitrogen redox processes at Loihi Seamount, Hawaii'>Evidence for microbial mediation of subseafloor nitrogen redox processes at Loihi Seamount, Hawaii<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Sylvan JB, SD Wankel, DE LaRowe, C Charoenpong, JA Huber, CL Moyer and KJ Edwards. 2017. Evidence for microbial mediation of subseafloor nitrogen redox processes at Loihi Seamount, Hawaii. <b>Geochimica et Cosmochimica Acta <\/b>. DOI:\/10.1016\/j.gca.2016.10.029.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='984' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-984 grid-entry-overview grid-loop-34 grid-parity-even  2016_sort  av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/isotopic-overprinting-of-nitrification-on-denitrification-as-a-ubiquitous-and-unifying-feature-of-environmental-nitrogen-cycling\/' title='Isotopic overprinting of nitrification on denitrification as a ubiquitous and unifying feature of environmental nitrogen cycling'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/isotopic-overprinting-of-nitrification-on-denitrification-as-a-ubiquitous-and-unifying-feature-of-environmental-nitrogen-cycling\/' title='Isotopic overprinting of nitrification on denitrification as a ubiquitous and unifying feature of environmental nitrogen cycling'>Isotopic overprinting of nitrification on denitrification as a ubiquitous and unifying feature of environmental nitrogen cycling<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Granger J and SD Wankel. 2016. Isotopic overprinting of nitrification on denitrification as a ubiquitous and unifying feature of environmental nitrogen cycling. 113:42 <b>Proceedings of the National Academy of Sciences of the United States of America<\/b>. DOI: 10.1073\/pnas.1601383113<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='784' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-784 grid-entry-overview grid-loop-35 grid-parity-odd  2016_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/nitrification-rate-is-a-fundamental-control-on-archaeal-lipid-composition-and-the-tex86-proxy\/' title='Nitrification rate is a fundamental control on archaeal lipid composition and the TEX86 proxy'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/nitrification-rate-is-a-fundamental-control-on-archaeal-lipid-composition-and-the-tex86-proxy\/' title='Nitrification rate is a fundamental control on archaeal lipid composition and the TEX86 proxy'>Nitrification rate is a fundamental control on archaeal lipid composition and the TEX86 proxy<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Hurley SJ, FJ Elling, M K\u00f6nneke, C Buchwald, SD Wankel, AE Santoro, JS Lipp, K-U Hinrichs and A Pearson. 2016. Nitrification rate is a fundamental control on archaeal lipid composition and the TEX86 proxy. <b>Proceedings of the National Academy of Sciences of the United States of America<\/b>. 113:7762-7767.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='783' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-783 grid-entry-overview grid-loop-36 grid-parity-even  2016_sort  av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/biogenic-manganese-oxides-as-reservoirs-of-organic-carbon-and-proteins-in-terrestrial-and-marine-environments\/' title='Biogenic manganese oxides as reservoirs of organic carbon and proteins in terrestrial and marine environments'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/biogenic-manganese-oxides-as-reservoirs-of-organic-carbon-and-proteins-in-terrestrial-and-marine-environments\/' title='Biogenic manganese oxides as reservoirs of organic carbon and proteins in terrestrial and marine environments'>Biogenic manganese oxides as reservoirs of organic carbon and proteins in terrestrial and marine environments<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Estes, ER, PF Andeer, D Nordlund, SD Wankel and CM Hansel. 2016. Biogenic manganese oxides as reservoirs of organic carbon and proteins in terrestrial and marine environments. <b>Geobiology<\/b>. DOI:10.1111.gbi.12195.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='782' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-782 grid-entry-overview grid-loop-37 grid-parity-odd  2016_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/constraining-the-role-of-iron-in-environmental-nitrogen-transformations-dual-stable-isotope-systematics-of-abiotic-no2%e2%88%92-reduction-by-feii-and-its-production-of-n2o\/' title='Constraining the role of iron in environmental nitrogen transformations: Dual stable isotope systematics of abiotic NO2\u2212 reduction by Fe(II) and its production of N2O'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/constraining-the-role-of-iron-in-environmental-nitrogen-transformations-dual-stable-isotope-systematics-of-abiotic-no2%e2%88%92-reduction-by-feii-and-its-production-of-n2o\/' title='Constraining the role of iron in environmental nitrogen transformations: Dual stable isotope systematics of abiotic NO2\u2212 reduction by Fe(II) and its production of N2O'>Constraining the role of iron in environmental nitrogen transformations: Dual stable isotope systematics of abiotic NO2\u2212 reduction by Fe(II) and its production of N2O<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Buchwald, C, KC Grabb, CM Hansel and SD Wankel. 2016. Constraining the role of iron in environmental nitrogen transformations: Dual stable isotope systematics of abiotic NO<sub>2<\/sub><sup>\u2212<\/sup> reduction by Fe(II) and its production of N<sub>2<\/sub>O. <b>Geochimica et Cosmochimica Acta<\/b> 186:1-12. doi:10.1016\/j.gca.2016.04.041<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='781' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-781 grid-entry-overview grid-loop-38 grid-parity-even  2015_sort  av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/nitrogen-cycling-in-the-subsurface-biosphere-nitrate-isotopes-in-porewaters-underlying-the-oligotrophic-north-atlantic\/' title='Nitrogen cycling in the deep sedimentary biosphere: Nitrate isotopes in porewaters underlying the oligotrophic North Atlantic'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/nitrogen-cycling-in-the-subsurface-biosphere-nitrate-isotopes-in-porewaters-underlying-the-oligotrophic-north-atlantic\/' title='Nitrogen cycling in the deep sedimentary biosphere: Nitrate isotopes in porewaters underlying the oligotrophic North Atlantic'>Nitrogen cycling in the deep sedimentary biosphere: Nitrate isotopes in porewaters underlying the oligotrophic North Atlantic<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Wankel SD, C Buchwald, W Ziebis, CB Wenk, and MF Lehmann. 2015. Nitrogen cycling in the subsurface biosphere: Nitrate isotopes in porewaters underlying the oligotrophic North Atlantic. <b>Biogeosciences<\/b> 12:13545-13591. doi:10.5194\/bg-12-7483-2015<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='780' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-780 grid-entry-overview grid-loop-39 grid-parity-odd  2015_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/dominance-of-sulfur-fueled-iron-oxide-reduction-in-low-sulfate-freshwater-environments\/' title='Dominance of sulfur-fueled iron oxide reduction in low sulfate freshwater environments'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/dominance-of-sulfur-fueled-iron-oxide-reduction-in-low-sulfate-freshwater-environments\/' title='Dominance of sulfur-fueled iron oxide reduction in low sulfate freshwater environments'>Dominance of sulfur-fueled iron oxide reduction in low sulfate freshwater environments<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Hansel CM, CJ Lentini, Y Tang, DT Johnston, SD Wankel and PM Jardine. 2015. Dominance of sulfur-fueled iron oxide reduction in low sulfate freshwater environments. <b>The ISME Journal<\/b>. doi:10.1038\/ismej.2015.50<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='716' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-716 grid-entry-overview grid-loop-40 grid-parity-even  2014_sort  av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/determination-and-application-of-the-equilibrium-oxygen-isotope-effect-between-water-and-sulfite\/' title='Determination and application of the equilibrium oxygen isotope effect between water and sulfite'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/determination-and-application-of-the-equilibrium-oxygen-isotope-effect-between-water-and-sulfite\/' title='Determination and application of the equilibrium oxygen isotope effect between water and sulfite'>Determination and application of the equilibrium oxygen isotope effect between water and sulfite<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Wankel, SD, AS Bradley, D Eldridge, and DT Johnston.  2014. Determination and application of the equilibrium oxygen isotope effect between water and sulfite. <b>Geochimica et Cosmochimica Acta<\/b>. 125:694-711.  doi:10.1016\/j.gca.2013.08.039.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='725' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-725 grid-entry-overview grid-loop-41 grid-parity-odd  2014_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/characterizing-the-plasticity-of-nitrogen-metabolism-by-the-host-and-symbionts-of-the-hydrothermal-vent-chemoautotrophic-symbioses-ridgeia-piscesae\/' title='Characterizing the plasticity of nitrogen metabolism by the host and symbionts of the hydrothermal vent chemoautotrophic symbioses Ridgeia piscesae.'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/characterizing-the-plasticity-of-nitrogen-metabolism-by-the-host-and-symbionts-of-the-hydrothermal-vent-chemoautotrophic-symbioses-ridgeia-piscesae\/' title='Characterizing the plasticity of nitrogen metabolism by the host and symbionts of the hydrothermal vent chemoautotrophic symbioses Ridgeia piscesae.'>Characterizing the plasticity of nitrogen metabolism by the host and symbionts of the hydrothermal vent chemoautotrophic symbioses Ridgeia piscesae.<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Liao, L, SD Wankel, M Wu, CM Cavanaugh and PR Girguis. 2014. Characterizing the plasticity of nitrogen metabolism by the host and symbionts of the hydrothermal vent chemoautotrophic symbioses Ridgeia piscesae. <b>Molecular Ecology<\/b>. 23:1544-1557. doi:10.1111\/mec.12460.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='724' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-724 grid-entry-overview grid-loop-42 grid-parity-even  2013_sort  av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/microbial-activity-in-the-deep-biosphere-progress-and-prospects\/' title='Microbial activity in the deep biosphere: Progress and prospects'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/microbial-activity-in-the-deep-biosphere-progress-and-prospects\/' title='Microbial activity in the deep biosphere: Progress and prospects'>Microbial activity in the deep biosphere: Progress and prospects<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Orcutt, BN, DE LaRowe, JF Biddle, FS Colwell, BT Glazer, BK Reese, JB Kirkpatrick, LL Lapham, HJ Mills, JB Sylvan, SD Wankel and CG Wheat. 2013. Microbial activity in the deep biosphere: Progress and prospects. <b>Frontiers in Extreme Microbiology<\/b>. doi:10.3389\/fmicb.2013.00189. <\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='604' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-604 grid-entry-overview grid-loop-43 grid-parity-odd  2013_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/characterizing-the-distribution-of-methane-sources-and-cycling-in-the-deep-sea-via-in-situ-stable-isotope-analysis\/' title='Characterizing the distribution of methane sources and cycling in the deep sea via in situ stable isotope analysis'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/characterizing-the-distribution-of-methane-sources-and-cycling-in-the-deep-sea-via-in-situ-stable-isotope-analysis\/' title='Characterizing the distribution of methane sources and cycling in the deep sea via in situ stable isotope analysis'>Characterizing the distribution of methane sources and cycling in the deep sea via in situ stable isotope analysis<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Wankel SD, Huang YW, Gupta M, Provencal R, Leen JB, Fahrland A, Vidoudez C, Girguis PR. 2013. Characterizing the distribution of methane sources and cycling in the deep sea via in situ stable isotope analysis. <b>Environmental Science and Technology<\/b> 47(3):1478-86. doi: 10.1021\/es303661w<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='723' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-723 grid-entry-overview grid-loop-44 grid-parity-even  2012_sort  av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/linkages-between-carbon-and-iron-biogeochemistry-insights-from-a-variety-of-iron-oxide-enrichment-culturing\/' title='Linkages between carbon and iron biogeochemistry: Insights from a variety of iron oxide enrichment culturing.'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/linkages-between-carbon-and-iron-biogeochemistry-insights-from-a-variety-of-iron-oxide-enrichment-culturing\/' title='Linkages between carbon and iron biogeochemistry: Insights from a variety of iron oxide enrichment culturing.'>Linkages between carbon and iron biogeochemistry: Insights from a variety of iron oxide enrichment culturing.<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Lentini C, SD Wankel and CM Hansel. 2012. Linkages between carbon and iron biogeochemistry: Insights from a variety of iron oxide enrichment culturing. <b>Frontiers in Microbiological Chemistry<\/b>. 3:404 doi:10.3389\/fmcib.2012.00404<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='568' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-568 grid-entry-overview grid-loop-45 grid-parity-odd  2012_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/anerobic-methane\/' title='Anaerobic methane oxidation in metalliferous hydrothermal sediments: Influence on carbon flux and decoupling from sulfate reduction'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/anerobic-methane\/' title='Anaerobic methane oxidation in metalliferous hydrothermal sediments: Influence on carbon flux and decoupling from sulfate reduction'>Anaerobic methane oxidation in metalliferous hydrothermal sediments: Influence on carbon flux and decoupling from sulfate reduction<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Wankel, S. D., Adams, M. M., Johnston, D. T., Hansel, C. M., Joye, S. B. and Girguis, P. R. 2012. Anaerobic methane oxidation in metalliferous hydrothermal sediments: influence on carbon flux and decoupling from sulfate reduction. <b>Environmental Microbiology<\/b>, 14: 2726\u20132740. doi: 10.1111\/j.1462-2920.2012.02825.x<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='729' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-729 grid-entry-overview grid-loop-46 grid-parity-even  2011_sort  av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/hydrogen-is-an-energy-source-for-hydrothermal-vent-symbioses\/' title='Hydrogen is an energy source for hydrothermal vent symbioses'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/hydrogen-is-an-energy-source-for-hydrothermal-vent-symbioses\/' title='Hydrogen is an energy source for hydrothermal vent symbioses'>Hydrogen is an energy source for hydrothermal vent symbioses<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Peterson JM, FU Zielinski, T Pape, R Siefert, C Moraru, R Amann, S Hourdez, PR Girguis, SD Wankel, V Barbe, E Pelletier, D Fink, C Borowski, and N Dubilier. 2011. A novel energy source for chemosynthetic symbioses: Hydrothermal vent mussels powered by hydrogen. <b>Nature<\/b>. 476:176-180. <\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='728' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-728 grid-entry-overview grid-loop-47 grid-parity-odd  2011_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/coupled-biotic-abiotic-mnii-oxidation-pathway-mediates-the-formation-and-structural-evolution-of-biogenic-mn-oxides\/' title='Coupled biotic\u2013abiotic Mn(II) oxidation pathway mediates the formation and structural evolution of biogenic Mn oxides'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/coupled-biotic-abiotic-mnii-oxidation-pathway-mediates-the-formation-and-structural-evolution-of-biogenic-mn-oxides\/' title='Coupled biotic\u2013abiotic Mn(II) oxidation pathway mediates the formation and structural evolution of biogenic Mn oxides'>Coupled biotic\u2013abiotic Mn(II) oxidation pathway mediates the formation and structural evolution of biogenic Mn oxides<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Learman DR, SD Wankel, SM Webb, N Martinez, AS Madden, and CM Hansel. 2011. Coupled Biotic-Abiotic Mn(II) Oxidation Pathway Mediates the Formation and Structural Evolution of Biogenic Mn Oxides. <b>Geochimica et Cosmochimica Acta<\/b>. 75:6048-6063. <\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='607' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-607 grid-entry-overview grid-loop-48 grid-parity-even  2011_sort  av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/influence-of-subsurface-biosphere-on-geochemical-fluxes-from-diffuse-hydrothermal-fluids\/' title='Influence of subsurface biosphere on geochemical fluxes from diffuse hydrothermal fluids'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/influence-of-subsurface-biosphere-on-geochemical-fluxes-from-diffuse-hydrothermal-fluids\/' title='Influence of subsurface biosphere on geochemical fluxes from diffuse hydrothermal fluids'>Influence of subsurface biosphere on geochemical fluxes from diffuse hydrothermal fluids<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >SD Wankel, LN Germanovich, MD Lilley, G Genc, CJ DiPerna, AS Bradley, EJ Olson, and PR Girguis. 2011. Influence of subsurface biosphere on geochemical fluxes from diffuse hydrothermal fluids, <b>Nature Geoscience<\/b>, 4:461-468.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='605' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-605 grid-entry-overview grid-loop-49 grid-parity-odd  2011_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/spatial-variability-in-nitrification-rates-and-ammonia-oxidizing-microbial-communities-in-the-agriculturally-impacted-elkhorn-slough-estuary-california\/' title='Spatial variability in nitrification rates and ammonia-oxidizing microbial communities in the agriculturally impacted Elkhorn Slough estuary, California'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/spatial-variability-in-nitrification-rates-and-ammonia-oxidizing-microbial-communities-in-the-agriculturally-impacted-elkhorn-slough-estuary-california\/' title='Spatial variability in nitrification rates and ammonia-oxidizing microbial communities in the agriculturally impacted Elkhorn Slough estuary, California'>Spatial variability in nitrification rates and ammonia-oxidizing microbial communities in the agriculturally impacted Elkhorn Slough estuary, California<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Wankel SD, Mosier AC, Hansel CM, Paytan A, Francis CA. 2011. Spatial variability in nitrification rates and ammonia-oxidizing microbial communities in the agriculturally impacted Elkhorn Slough estuary, California. <b>Applied and Environmental Microbiology<\/b> 77(1):269-80. doi: 10.1128\/AEM.01318-10. <\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='732' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-732 grid-entry-overview grid-loop-50 grid-parity-even  2010_sort  av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/new-constraints-on-methane-fluxes-and-rates-of-anaerobic-methane-oxidation-in-a-gulf-of-mexico-brine-pool-via-in-situ-mass-spectrometry\/' title='New constraints on methane fluxes and rates of anaerobic methane oxidation in a Gulf of Mexico brine pool via in situ mass spectrometry.'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/new-constraints-on-methane-fluxes-and-rates-of-anaerobic-methane-oxidation-in-a-gulf-of-mexico-brine-pool-via-in-situ-mass-spectrometry\/' title='New constraints on methane fluxes and rates of anaerobic methane oxidation in a Gulf of Mexico brine pool via in situ mass spectrometry.'>New constraints on methane fluxes and rates of anaerobic methane oxidation in a Gulf of Mexico brine pool via in situ mass spectrometry.<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Wankel, SD,SB Joye, VA Samarkin, SR Shah, G Friederich, J Melas-Kyriazi, and PR Girguis.  2010.  New constraints on methane fluxes and rates of anaerobic methane oxidation in a Gulf of Mexico brine pool via in situ mass spectrometry. <b>Deep Sea Research II<\/b>.  57:2022-2029.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='614' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-614 grid-entry-overview grid-loop-51 grid-parity-odd  2010_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/sources-of-aerosol-nitrate-to-the-gulf-of-aqaba-evidence-from-%ce%b415n-and-%ce%b418o-of-nitrate-and-trace-metal-chemistry\/' title='Sources of aerosol nitrate to the Gulf of Aqaba: Evidence from \u03b415N and \u03b418O of nitrate and trace metal chemistry'  data-rel='grid-1' class='grid-image avia-hover-fx'><img width=\"120\" height=\"120\" src=\"https:\/\/web.whoi.edu\/wankel\/wp-content\/uploads\/sites\/45\/2015\/07\/Gulf_of_Eilat-120x120.jpg\" class=\"attachment-shop_thumbnail size-shop_thumbnail wp-post-image\" alt=\"\" loading=\"lazy\" srcset=\"https:\/\/web.whoi.edu\/wankel\/wp-content\/uploads\/sites\/45\/2015\/07\/Gulf_of_Eilat-120x120.jpg 120w, https:\/\/web.whoi.edu\/wankel\/wp-content\/uploads\/sites\/45\/2015\/07\/Gulf_of_Eilat-80x80.jpg 80w, https:\/\/web.whoi.edu\/wankel\/wp-content\/uploads\/sites\/45\/2015\/07\/Gulf_of_Eilat-36x36.jpg 36w, https:\/\/web.whoi.edu\/wankel\/wp-content\/uploads\/sites\/45\/2015\/07\/Gulf_of_Eilat-180x180.jpg 180w, https:\/\/web.whoi.edu\/wankel\/wp-content\/uploads\/sites\/45\/2015\/07\/Gulf_of_Eilat-450x450.jpg 450w\" sizes=\"(max-width: 120px) 100vw, 120px\" \/><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/sources-of-aerosol-nitrate-to-the-gulf-of-aqaba-evidence-from-%ce%b415n-and-%ce%b418o-of-nitrate-and-trace-metal-chemistry\/' title='Sources of aerosol nitrate to the Gulf of Aqaba: Evidence from \u03b415N and \u03b418O of nitrate and trace metal chemistry'>Sources of aerosol nitrate to the Gulf of Aqaba: Evidence from \u03b415N and \u03b418O of nitrate and trace metal chemistry<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >S.D. Wankel, Y. Chen, C. Kendall, A.F. Post, A. Paytan. 2010. Sources of aerosol nitrate to the Gulf of Aqaba: evidence from \u03b415N and \u03b418O of nitrate and trace metal chemistry. <b>Marine Chemistry<\/b>, 120:90\u201399.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='731' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-731 grid-entry-overview grid-loop-52 grid-parity-even  2009_sort  av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/using-nitrate-dual-isotopic-composition-%ce%b415n-and-%ce%b418o-as-a-tool-for-exploring-sources-and-cycling-of-nitrate-in-an-estuarine-system-elkhorn-slough-california\/' title='Using nitrate dual isotopic composition (\u03b415N and \u03b418O) as a tool for exploring sources and cycling of nitrate in an estuarine system: Elkhorn Slough, California'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/using-nitrate-dual-isotopic-composition-%ce%b415n-and-%ce%b418o-as-a-tool-for-exploring-sources-and-cycling-of-nitrate-in-an-estuarine-system-elkhorn-slough-california\/' title='Using nitrate dual isotopic composition (\u03b415N and \u03b418O) as a tool for exploring sources and cycling of nitrate in an estuarine system: Elkhorn Slough, California'>Using nitrate dual isotopic composition (\u03b415N and \u03b418O) as a tool for exploring sources and cycling of nitrate in an estuarine system: Elkhorn Slough, California<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Wankel, SD, C Kendall, and A Paytan.  2009. Using nitrate dual isotopic composition (\u03b415N and \u03b418O) as a tool for exploring sources and cycling of nitrate in an estuarine system:  Elkhorn Slough, CA.  <b>Journal of Geophysical Research \u2013 Biogeosciences<\/b>.  114(G01011): 10.1029\/2008JG000729.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='733' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-733 grid-entry-overview grid-loop-53 grid-parity-odd  2007_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/an-isotopic-tracer-of-stationary-source-nox-emissions-across-the-midwestern-and-northeastern-united-states\/' title='An Isotopic Tracer of Stationary Source NOx Emissions Across the Midwestern and Northeastern United States'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/an-isotopic-tracer-of-stationary-source-nox-emissions-across-the-midwestern-and-northeastern-united-states\/' title='An Isotopic Tracer of Stationary Source NOx Emissions Across the Midwestern and Northeastern United States'>An Isotopic Tracer of Stationary Source NOx Emissions Across the Midwestern and Northeastern United States<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Elliott, EM, C Kendall, SD Wankel, EW Boyer, DA Burns, DJ Bain, K Harlin, TJ Butler, and R Carlton.  2007.  An Isotopic Tracer of Stationary Source NOx Emissions Across the Midwestern and Northeastern United States.  <b>Environmental Science and Technology<\/b>.  41(22): 7661-7667.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='735' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-735 grid-entry-overview grid-loop-54 grid-parity-even  2007_sort  av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/the-rainfall-limit-of-the-nitrogen-cycle-on-earth\/' title='The rainfall limit of the nitrogen cycle on earth'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/the-rainfall-limit-of-the-nitrogen-cycle-on-earth\/' title='The rainfall limit of the nitrogen cycle on earth'>The rainfall limit of the nitrogen cycle on earth<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Ewing SA, GM Michalski, M Thiemens, RC Quinn, JL Macalady, S Kohl, SD Wankel, C Kendall, CP McKay, and R Amundson.  2007.  The rainfall limit of the nitrogen cycle on earth.  <b>Global Biogeochemical Cycles<\/b>.  21(3): 10.1029\/2006GB002838.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='779' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-779 grid-entry-overview grid-loop-55 grid-parity-odd  2007_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/tracing-anthropogenic-sources-of-nitrogen-to-ecosystems\/' title='Tracing anthropogenic sources of nitrogen to ecosystems'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/tracing-anthropogenic-sources-of-nitrogen-to-ecosystems\/' title='Tracing anthropogenic sources of nitrogen to ecosystems'>Tracing anthropogenic sources of nitrogen to ecosystems<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Kendall C, EM Elliott and SD Wankel. 2007. Tracing anthropogenic sources of nitrogen to ecosystems. In Stable Isotopes in Ecology and Environmental Science. K Lajtha and RH Michener (eds.). Blackwell Science Publications, Oxford.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='734' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-734 grid-entry-overview grid-loop-56 grid-parity-even  2007_sort  av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/identifying-the-sources-of-nitrogen-to-hanalei-bay-kauai-utilizing-the-nitrogen-isotope-signature-of-macroalgae\/' title='Identifying the sources of nitrogen to Hanalei Bay, Kauai utilizing the nitrogen isotope signature of macroalgae.'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/identifying-the-sources-of-nitrogen-to-hanalei-bay-kauai-utilizing-the-nitrogen-isotope-signature-of-macroalgae\/' title='Identifying the sources of nitrogen to Hanalei Bay, Kauai utilizing the nitrogen isotope signature of macroalgae.'>Identifying the sources of nitrogen to Hanalei Bay, Kauai utilizing the nitrogen isotope signature of macroalgae.<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Derse E, K Knee, SD Wankel, C Kendall and A. Paytan,.  2007.  Identifying the sources of nitrogen to Hanalei Bay, Kauai utilizing the nitrogen isotope signature of macroalgae. <b>Environmental Science and Technology<\/b>. 41(15): 5217-5223.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='608' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-608 grid-entry-overview grid-loop-57 grid-parity-odd  2007_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/nitrification-in-the-euphotic-zone-as-evidenced-by-nitrate-dual-isotopic-composition-observations-from-monterey-bay-california\/' title='Nitrification in the euphotic zone as evidenced by nitrate dual isotopic composition: Observations from Monterey Bay, California'  data-rel='grid-1' class='grid-image avia-hover-fx'><img width=\"120\" height=\"120\" src=\"https:\/\/web.whoi.edu\/wankel\/wp-content\/uploads\/sites\/45\/2015\/02\/placeholder-home-bg-120x120.jpg\" class=\"attachment-shop_thumbnail size-shop_thumbnail wp-post-image\" alt=\"\" loading=\"lazy\" srcset=\"https:\/\/web.whoi.edu\/wankel\/wp-content\/uploads\/sites\/45\/2015\/02\/placeholder-home-bg-120x120.jpg 120w, https:\/\/web.whoi.edu\/wankel\/wp-content\/uploads\/sites\/45\/2015\/02\/placeholder-home-bg-80x80.jpg 80w, https:\/\/web.whoi.edu\/wankel\/wp-content\/uploads\/sites\/45\/2015\/02\/placeholder-home-bg-36x36.jpg 36w, https:\/\/web.whoi.edu\/wankel\/wp-content\/uploads\/sites\/45\/2015\/02\/placeholder-home-bg-180x180.jpg 180w, https:\/\/web.whoi.edu\/wankel\/wp-content\/uploads\/sites\/45\/2015\/02\/placeholder-home-bg-450x450.jpg 450w\" sizes=\"(max-width: 120px) 100vw, 120px\" \/><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/nitrification-in-the-euphotic-zone-as-evidenced-by-nitrate-dual-isotopic-composition-observations-from-monterey-bay-california\/' title='Nitrification in the euphotic zone as evidenced by nitrate dual isotopic composition: Observations from Monterey Bay, California'>Nitrification in the euphotic zone as evidenced by nitrate dual isotopic composition: Observations from Monterey Bay, California<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Wankel, S. D., C. Kendall, J. T. Pennington, F. P. Chavez, and A. Paytan (2007), Nitrification in the euphotic zone as evidenced by nitrate dual isotopic composition: Observations from Monterey Bay, California, <b>Global Biogeochemical Cycles<\/b>, 21, GB2009, doi:10.1029\/2006GB002723.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='737' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-737 grid-entry-overview grid-loop-58 grid-parity-even  2007_sort  av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/nitrate-dynamics-within-the-pajaro-river-a-nutrient-rich-losing-stream\/' title='Nitrate dynamics within the Pajaro River, a nutrient rich, losing stream.'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/nitrate-dynamics-within-the-pajaro-river-a-nutrient-rich-losing-stream\/' title='Nitrate dynamics within the Pajaro River, a nutrient rich, losing stream.'>Nitrate dynamics within the Pajaro River, a nutrient rich, losing stream.<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Ruehl C, AT Fisher, M Los Huertos, SD Wankel, CG Wheat, C Kendall, C Hatch, and C Shennan.  2007.  Nitrate dynamics within the Pajaro River, a nutrient rich, losing stream.  <b>Journal of the North American Benthological Society<\/b>.  26(2):191-206.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='736' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-736 grid-entry-overview grid-loop-59 grid-parity-odd  2007_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/nitrogen-and-oxygen-isotopic-signatures-of-subsurface-nitrate-seaward-of-the-florida-keys\/' title='Nitrogen and oxygen isotopic signatures of subsurface nitrate seaward of the Florida Keys'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/nitrogen-and-oxygen-isotopic-signatures-of-subsurface-nitrate-seaward-of-the-florida-keys\/' title='Nitrogen and oxygen isotopic signatures of subsurface nitrate seaward of the Florida Keys'>Nitrogen and oxygen isotopic signatures of subsurface nitrate seaward of the Florida Keys<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Leichter, JL, A Paytan, SD Wankel, K Hanson, S Miller, and M Altabet.  2007.  Nitrogen and oxygen isotopic signatures of subsurface nitrate:  Evidence of deep water nutrient sources to the Florida Keys reef tract.  <b>Limnology and Oceanography<\/b>. 52:1258-1267. <\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='778' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-778 grid-entry-overview grid-loop-60 grid-parity-even  2006_sort  av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/nitrogen-sources-and-cycling-in-the-san-francisco-bay-estuary-a-nitrate-dual-isotopic-composition-approach\/' title='Nitrogen sources and cycling in the San Francisco Bay Estuary: A nitrate dual isotopic composition approach'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/nitrogen-sources-and-cycling-in-the-san-francisco-bay-estuary-a-nitrate-dual-isotopic-composition-approach\/' title='Nitrogen sources and cycling in the San Francisco Bay Estuary: A nitrate dual isotopic composition approach'>Nitrogen sources and cycling in the San Francisco Bay Estuary: A nitrate dual isotopic composition approach<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Wankel SD, C Kendall, CA Francis and A Paytan. 2006. Nitrogen sources and cycling in the San Francisco Bay Estuary: A nitrate dual isotopic composition approach. <b>Limnology and Oceanography<\/b>. 51(4):1654-1664.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='777' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-777 grid-entry-overview grid-loop-61 grid-parity-odd  2005_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/preparation-and-analysis-of-nitrogen-bearing-compounds-in-water-for-stable-isotope-ratio-measurement\/' title='Preparation and analysis of nitrogen-bearing compounds in water for stable isotope ratio measurement'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/preparation-and-analysis-of-nitrogen-bearing-compounds-in-water-for-stable-isotope-ratio-measurement\/' title='Preparation and analysis of nitrogen-bearing compounds in water for stable isotope ratio measurement'>Preparation and analysis of nitrogen-bearing compounds in water for stable isotope ratio measurement<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Chang, C, SR Silva, C Kendal, GM Michalski, KL Casciotti and SD Wankel. 2005. Preparation and analysis of nitrogen-bearing compounds in water for stable isotope ratio measurement. In Handbook of Stable Isotope Analytical Techniques. PA de Groot (ed). Ch 15. Elsevier.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='775' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-775 grid-entry-overview grid-loop-62 grid-parity-even  2004_sort  av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/tracing-sources-of-nitrate-in-snowmelt-using-a-high-resolution-isotopic-technique\/' title='Tracing sources of nitrate in snowmelt using a high-resolution isotopic technique'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/tracing-sources-of-nitrate-in-snowmelt-using-a-high-resolution-isotopic-technique\/' title='Tracing sources of nitrate in snowmelt using a high-resolution isotopic technique'>Tracing sources of nitrate in snowmelt using a high-resolution isotopic technique<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Ohte N, SD Sebestyen, JB Shanley, DH Doctor, C Kendall, SD Wankel and EW Boyer. 2004. Tracing sources of nitrate in snowmelt using a high-resolution isotopic technique. <b>Geophysical Research Letters<\/b>. 31, L21506, doi:10.1029\/2004GL020908.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='776' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-776 grid-entry-overview grid-loop-63 grid-parity-odd  2004_sort  av_one_half first default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/using-sulfur-isotopes-to-elucidate-the-origin-of-barite-associated-with-high-organic-matter-accumulation-events-in-marine-sediments\/' title='Using sulfur isotopes to elucidate the origin of barite associated with high organic matter accumulation events in marine sediments'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/using-sulfur-isotopes-to-elucidate-the-origin-of-barite-associated-with-high-organic-matter-accumulation-events-in-marine-sediments\/' title='Using sulfur isotopes to elucidate the origin of barite associated with high organic matter accumulation events in marine sediments'>Using sulfur isotopes to elucidate the origin of barite associated with high organic matter accumulation events in marine sediments<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Paytan, A, F Martinez-Ruiz, M Eagle, A Ivy, SD Wankel. 2004. Using sulfur isotopes to elucidate the origin of barite associated with high organic matter accumulation events in marine sediments in Amend JP, Edwards KJ and Lyons TW eds. Sulfur Biogeochemistry - Past and Present. Boulder CO, <b>Geological Society of America Special Paper 379<\/b>, p 151-160.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><div data-ajax-id='774' class=' grid-entry flex_column isotope-item all_sort no_margin post-entry post-entry-774 grid-entry-overview grid-loop-64 grid-parity-even  post-entry-last  2002_sort  av_one_half  default_av_fullwidth '><article class='main_color inner-entry'  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/levels-of-mercury-in-alligators-alligator-mississippiensis-collected-along-a-transect-through-the-florida-everglades\/' title='Levels of mercury in alligators (Alligator mississippiensis) collected along a transect through the Florida Everglades'  data-rel='grid-1' class='grid-image avia-hover-fx'><\/a><div class='grid-content'><div class='avia-arrow'><\/div><header class=\"entry-content-header\"><h3 class='grid-entry-title entry-title'  itemprop=\"headline\" ><a href='https:\/\/web.whoi.edu\/wankel\/portfolio-item\/levels-of-mercury-in-alligators-alligator-mississippiensis-collected-along-a-transect-through-the-florida-everglades\/' title='Levels of mercury in alligators (Alligator mississippiensis) collected along a transect through the Florida Everglades'>Levels of mercury in alligators (Alligator mississippiensis) collected along a transect through the Florida Everglades<\/a><\/h3><\/header><div class='grid-entry-excerpt entry-content'  itemprop=\"text\" >Rumbold, DG, LE Fink, KA Laine, SL Niemczyk, T Chandrasekhar, SD Wankel, and C Kendall. 2002. Levels of mercury in alligators (Alligator mississippiensis) collected along a transect through the Florida Everglades. <b>The Science of the Total Environment<\/b>, 297 (103):239-252.<\/div><\/div><footer class=\"entry-footer\"><\/footer><\/article><\/div><\/div>\n<div style='height:15px' class='hr hr-invisible '><span class='hr-inner ' ><span class='hr-inner-style'><\/span><\/span><\/div>\n<section class=\"av_textblock_section\"  itemscope=\"itemscope\" itemtype=\"https:\/\/schema.org\/CreativeWork\" ><div class='avia_textblock '   itemprop=\"text\" ><p style=\"text-align: center\"><a href=\"http:\/\/web.whoi.edu\/wankel\/publication-author-archive\/\">View Author Archive<\/a><\/p>\n<\/div><\/section>\n\n","protected":false},"excerpt":{"rendered":"","protected":false},"author":110,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"open","ping_status":"open","template":"","meta":[],"_links":{"self":[{"href":"https:\/\/web.whoi.edu\/wankel\/wp-json\/wp\/v2\/pages\/24"}],"collection":[{"href":"https:\/\/web.whoi.edu\/wankel\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/web.whoi.edu\/wankel\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/web.whoi.edu\/wankel\/wp-json\/wp\/v2\/users\/110"}],"replies":[{"embeddable":true,"href":"https:\/\/web.whoi.edu\/wankel\/wp-json\/wp\/v2\/comments?post=24"}],"version-history":[{"count":4,"href":"https:\/\/web.whoi.edu\/wankel\/wp-json\/wp\/v2\/pages\/24\/revisions"}],"predecessor-version":[{"id":1084,"href":"https:\/\/web.whoi.edu\/wankel\/wp-json\/wp\/v2\/pages\/24\/revisions\/1084"}],"wp:attachment":[{"href":"https:\/\/web.whoi.edu\/wankel\/wp-json\/wp\/v2\/media?parent=24"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}