Item talk:Q143235
From geokb
{
"OpenAlex": { "id": "https://openalex.org/A5079530473", "orcid": "https://orcid.org/0000-0001-6609-698X", "display_name": "Phoebe J. Lam", "display_name_alternatives": [ "Phoebe Lam", "P. Lam", "Phoebe J. Lam", "P. J. Lam" ], "works_count": 145, "cited_by_count": 5141, "summary_stats": { "2yr_mean_citedness": 2.4193548387096775, "h_index": 40, "i10_index": 77 }, "ids": { "openalex": "https://openalex.org/A5079530473", "orcid": "https://orcid.org/0000-0001-6609-698X" }, "affiliations": [ { "institution": { "id": "https://openalex.org/I185103710", "ror": "https://ror.org/03s65by71", "display_name": "University of California, Santa Cruz", "country_code": "US", "type": "education", "lineage": [ "https://openalex.org/I185103710" ] }, "years": [ 2024, 2023, 2022, 2021, 2020, 2019, 2018, 2017, 2016, 2015 ] }, { "institution": { "id": "https://openalex.org/I4210103479", "ror": "https://ror.org/017jtd728", "display_name": "Higher Institute of Mining, Industry and Geology", "country_code": "NE", "type": "education", "lineage": [ "https://openalex.org/I4210103479" ] }, "years": [ 2023 ] }, { "institution": { "id": "https://openalex.org/I167576493", "ror": "https://ror.org/04raf6v53", "display_name": "Colorado School of Mines", "country_code": "US", "type": "education", "lineage": [ "https://openalex.org/I167576493" ] }, "years": [ 2023 ] }, { "institution": { "id": "https://openalex.org/I904495901", "ror": "https://ror.org/04tsk2644", "display_name": "Ruhr University Bochum", "country_code": "DE", "type": "education", "lineage": [ "https://openalex.org/I904495901" ] }, "years": [ 2023 ] }, { "institution": { "id": "https://openalex.org/I4210104914", "ror": "https://ror.org/01gsm0s82", "display_name": "National Postdoctoral Association", "country_code": "US", "type": "nonprofit", "lineage": [ "https://openalex.org/I4210104914" ] }, "years": [ 2022 ] }, { "institution": { "id": "https://openalex.org/I161675122", "ror": "https://ror.org/00bdqav06", "display_name": "Cooperative Institute for Research in Environmental Sciences", "country_code": "US", "type": "facility", "lineage": [ "https://openalex.org/I1308126019", "https://openalex.org/I1343035065", "https://openalex.org/I161675122", "https://openalex.org/I188538660", "https://openalex.org/I2802992173" ] }, "years": [ 2022 ] }, { "institution": { "id": "https://openalex.org/I201448701", "ror": "https://ror.org/00cvxb145", "display_name": "University of Washington", "country_code": "US", "type": "education", "lineage": [ "https://openalex.org/I201448701" ] }, "years": [ 2022 ] }, { "institution": { "id": "https://openalex.org/I200870766", "ror": "https://ror.org/02ex6cf31", "display_name": "Brookhaven National Laboratory", "country_code": "US", "type": "facility", "lineage": [ "https://openalex.org/I1330989302", "https://openalex.org/I200870766", "https://openalex.org/I39565521", "https://openalex.org/I4210142672" ] }, "years": [ 2022 ] }, { "institution": { "id": "https://openalex.org/I2800663845", "ror": "https://ror.org/03v2r6x37", "display_name": "Bigelow Laboratory for Ocean Sciences", "country_code": "US", "type": "nonprofit", "lineage": [ "https://openalex.org/I2800663845" ] }, "years": [ 2022 ] }, { "institution": { "id": "https://openalex.org/I66958751", "ror": "https://ror.org/03zbnzt98", "display_name": "Woods Hole Oceanographic Institution", "country_code": "US", "type": "nonprofit", "lineage": [ "https://openalex.org/I66958751" ] }, "years": [ 2018, 2017, 2016, 2015, 2014, 2013, 2012, 2011, 2008, 2007 ] } ], "last_known_institutions": [ { "id": "https://openalex.org/I185103710", "ror": "https://ror.org/03s65by71", "display_name": "University of California, Santa Cruz", "country_code": "US", "type": "education", "lineage": [ "https://openalex.org/I185103710" ] } ], "topics": [ { "id": "https://openalex.org/T10032", "display_name": "Marine Biogeochemistry and Ecosystem Dynamics", "count": 85, "subfield": { "id": "https://openalex.org/subfields/1910", "display_name": "Oceanography" }, "field": { "id": "https://openalex.org/fields/19", "display_name": "Earth and Planetary Sciences" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T10765", "display_name": "Marine Biodiversity and Ecosystem Functioning", "count": 46, "subfield": { "id": "https://openalex.org/subfields/1910", "display_name": "Oceanography" }, "field": { "id": "https://openalex.org/fields/19", "display_name": "Earth and Planetary Sciences" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T11740", "display_name": "Geochemistry of Manganese Oxides in Sedimentary Environments", "count": 37, "subfield": { "id": "https://openalex.org/subfields/1906", "display_name": "Geochemistry and Petrology" }, "field": { "id": "https://openalex.org/fields/19", "display_name": "Earth and Planetary Sciences" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T10017", "display_name": "Climate Change and Paleoclimatology", "count": 26, "subfield": { "id": "https://openalex.org/subfields/1902", "display_name": "Atmospheric Science" }, "field": { "id": "https://openalex.org/fields/19", "display_name": "Earth and Planetary Sciences" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T10255", "display_name": "Oceanic Modeling and Circulation Studies", "count": 24, "subfield": { "id": "https://openalex.org/subfields/1910", "display_name": "Oceanography" }, "field": { "id": "https://openalex.org/fields/19", "display_name": "Earth and Planetary Sciences" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T10819", "display_name": "Toxicology and Environmental Impacts of Mercury Contamination", "count": 22, "subfield": { "id": "https://openalex.org/subfields/2307", "display_name": "Health, Toxicology and Mutagenesis" }, "field": { "id": "https://openalex.org/fields/23", "display_name": "Environmental Science" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T10995", "display_name": "Anaerobic Methane Oxidation and Gas Hydrates", "count": 22, "subfield": { "id": "https://openalex.org/subfields/2304", "display_name": "Environmental Chemistry" }, "field": { "id": "https://openalex.org/fields/23", "display_name": "Environmental Science" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T12073", "display_name": "Application of Stable Isotopes in Trophic Ecology", "count": 15, "subfield": { "id": "https://openalex.org/subfields/2303", "display_name": "Ecology" }, "field": { "id": "https://openalex.org/fields/23", "display_name": "Environmental Science" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T12806", "display_name": "Impact of Ocean Acidification on Marine Ecosystems", "count": 14, "subfield": { "id": "https://openalex.org/subfields/1910", "display_name": "Oceanography" }, "field": { "id": "https://openalex.org/fields/19", "display_name": "Earth and Planetary Sciences" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T10139", "display_name": "Environmental Impact of Heavy Metal Contamination", "count": 12, "subfield": { "id": "https://openalex.org/subfields/2310", "display_name": "Pollution" }, "field": { "id": "https://openalex.org/fields/23", "display_name": "Environmental Science" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T10109", "display_name": "Paleoredox and Paleoproductivity Proxies", "count": 11, "subfield": { "id": "https://openalex.org/subfields/1911", "display_name": "Paleontology" }, "field": { "id": "https://openalex.org/fields/19", "display_name": "Earth and Planetary Sciences" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T12157", "display_name": "Machine Learning for Mineral Prospectivity Mapping", "count": 11, "subfield": { "id": "https://openalex.org/subfields/1702", "display_name": "Artificial Intelligence" }, "field": { "id": "https://openalex.org/fields/17", "display_name": "Computer Science" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T10398", "display_name": "Stable Isotope Analysis of Groundwater and Precipitation", "count": 9, "subfield": { "id": "https://openalex.org/subfields/1906", "display_name": "Geochemistry and Petrology" }, "field": { "id": "https://openalex.org/fields/19", "display_name": "Earth and Planetary Sciences" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T11588", "display_name": "Global Methane Emissions and Impacts", "count": 9, "subfield": { "id": "https://openalex.org/subfields/2306", "display_name": "Global and Planetary Change" }, "field": { "id": "https://openalex.org/fields/23", "display_name": "Environmental Science" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T11089", "display_name": "Environmental Impacts of Fukushima Nuclear Disaster", "count": 7, "subfield": { "id": "https://openalex.org/subfields/2306", "display_name": "Global and Planetary Change" }, "field": { "id": "https://openalex.org/fields/23", "display_name": "Environmental Science" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T11459", "display_name": "Arctic Sea Ice Variability and Decline", "count": 6, "subfield": { "id": "https://openalex.org/subfields/1902", "display_name": "Atmospheric Science" }, "field": { "id": "https://openalex.org/fields/19", "display_name": "Earth and Planetary Sciences" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T13193", "display_name": "Geological Evolution of the Arctic Region", "count": 6, "subfield": { "id": "https://openalex.org/subfields/1907", "display_name": "Geology" }, "field": { "id": "https://openalex.org/fields/19", "display_name": "Earth and Planetary Sciences" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T10973", "display_name": "Chemistry of Actinide and Lanthanide Elements", "count": 4, "subfield": { "id": "https://openalex.org/subfields/1604", "display_name": "Inorganic Chemistry" }, "field": { "id": "https://openalex.org/fields/16", "display_name": "Chemistry" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T10399", "display_name": "Characterization of Shale Gas Pore Structure", "count": 4, "subfield": { "id": "https://openalex.org/subfields/2211", "display_name": "Mechanics of Materials" }, "field": { "id": "https://openalex.org/fields/22", "display_name": "Engineering" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T11278", "display_name": "Bioinspired Structural Materials and Biomineralization", "count": 2, "subfield": { "id": "https://openalex.org/subfields/2502", "display_name": "Biomaterials" }, "field": { "id": "https://openalex.org/fields/25", "display_name": "Materials Science" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T10341", "display_name": "Resilience of Coral Reef Ecosystems to Climate Change", "count": 2, "subfield": { "id": "https://openalex.org/subfields/2303", "display_name": "Ecology" }, "field": { "id": "https://openalex.org/fields/23", "display_name": "Environmental Science" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T12432", "display_name": "Arctic Shipping and Governance", "count": 2, "subfield": { "id": "https://openalex.org/subfields/3312", "display_name": "Sociology and Political Science" }, "field": { "id": "https://openalex.org/fields/33", "display_name": "Social Sciences" }, "domain": { "id": "https://openalex.org/domains/2", "display_name": "Social Sciences" } }, { "id": "https://openalex.org/T11088", "display_name": "Impact of Aquaculture on Marine Ecosystems and Food Supply", "count": 2, "subfield": { "id": "https://openalex.org/subfields/2306", "display_name": "Global and Planetary Change" }, "field": { "id": "https://openalex.org/fields/23", "display_name": "Environmental Science" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T11786", "display_name": "Magnetosome Formation in Prokaryotes", "count": 2, "subfield": { "id": "https://openalex.org/subfields/1312", "display_name": "Molecular Biology" }, "field": { "id": "https://openalex.org/fields/13", "display_name": "Biochemistry, Genetics and Molecular Biology" }, "domain": { "id": "https://openalex.org/domains/1", "display_name": "Life Sciences" } }, { "id": "https://openalex.org/T10230", "display_name": "Impacts of Climate Change on Marine Fisheries", "count": 2, "subfield": { "id": "https://openalex.org/subfields/2306", "display_name": "Global and Planetary Change" }, "field": { "id": "https://openalex.org/fields/23", "display_name": "Environmental Science" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } } ], "topic_share": [ { "id": "https://openalex.org/T10032", "display_name": "Marine Biogeochemistry and Ecosystem Dynamics", "value": 0.0003662, "subfield": { "id": "https://openalex.org/subfields/1910", "display_name": "Oceanography" }, "field": { "id": "https://openalex.org/fields/19", "display_name": "Earth and Planetary Sciences" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T11740", "display_name": "Geochemistry of Manganese Oxides in Sedimentary Environments", "value": 0.0003327, "subfield": { "id": "https://openalex.org/subfields/1906", "display_name": "Geochemistry and Petrology" }, "field": { "id": "https://openalex.org/fields/19", "display_name": "Earth and Planetary Sciences" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T12806", "display_name": "Impact of Ocean Acidification on Marine Ecosystems", "value": 0.0002159, "subfield": { "id": "https://openalex.org/subfields/1910", "display_name": "Oceanography" }, "field": { "id": "https://openalex.org/fields/19", "display_name": "Earth and Planetary Sciences" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T10765", "display_name": "Marine Biodiversity and Ecosystem Functioning", "value": 0.0001896, "subfield": { "id": "https://openalex.org/subfields/1910", "display_name": "Oceanography" }, "field": { "id": "https://openalex.org/fields/19", "display_name": "Earth and Planetary Sciences" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T10819", "display_name": "Toxicology and Environmental Impacts of Mercury Contamination", "value": 0.0001895, "subfield": { "id": "https://openalex.org/subfields/2307", "display_name": "Health, Toxicology and Mutagenesis" }, "field": { "id": "https://openalex.org/fields/23", "display_name": "Environmental Science" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T10255", "display_name": "Oceanic Modeling and Circulation Studies", "value": 0.0001181, "subfield": { "id": "https://openalex.org/subfields/1910", "display_name": "Oceanography" }, "field": { "id": "https://openalex.org/fields/19", "display_name": "Earth and Planetary Sciences" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T10398", "display_name": "Stable Isotope Analysis of Groundwater and Precipitation", "value": 7.11e-05, "subfield": { "id": "https://openalex.org/subfields/1906", "display_name": "Geochemistry and Petrology" }, "field": { "id": "https://openalex.org/fields/19", "display_name": "Earth and Planetary Sciences" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T12073", "display_name": "Application of Stable Isotopes in Trophic Ecology", "value": 6.83e-05, "subfield": { "id": "https://openalex.org/subfields/2303", "display_name": "Ecology" }, "field": { "id": "https://openalex.org/fields/23", "display_name": "Environmental Science" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T10139", "display_name": "Environmental Impact of Heavy Metal Contamination", "value": 6.02e-05, "subfield": { "id": "https://openalex.org/subfields/2310", "display_name": "Pollution" }, "field": { "id": "https://openalex.org/fields/23", "display_name": "Environmental Science" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T10109", "display_name": "Paleoredox and Paleoproductivity Proxies", "value": 5.03e-05, "subfield": { "id": "https://openalex.org/subfields/1911", "display_name": "Paleontology" }, "field": { "id": "https://openalex.org/fields/19", "display_name": "Earth and Planetary Sciences" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T11089", "display_name": "Environmental Impacts of Fukushima Nuclear Disaster", "value": 4.69e-05, "subfield": { "id": "https://openalex.org/subfields/2306", "display_name": "Global and Planetary Change" }, "field": { "id": "https://openalex.org/fields/23", "display_name": "Environmental Science" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T11459", "display_name": "Arctic Sea Ice Variability and Decline", "value": 4.14e-05, "subfield": { "id": "https://openalex.org/subfields/1902", "display_name": "Atmospheric Science" }, "field": { "id": "https://openalex.org/fields/19", "display_name": "Earth and Planetary Sciences" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T10017", "display_name": "Climate Change and Paleoclimatology", "value": 4.01e-05, "subfield": { "id": "https://openalex.org/subfields/1902", "display_name": "Atmospheric Science" }, "field": { "id": "https://openalex.org/fields/19", "display_name": "Earth and Planetary Sciences" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T10995", "display_name": "Anaerobic Methane Oxidation and Gas Hydrates", "value": 3.67e-05, "subfield": { "id": "https://openalex.org/subfields/2304", "display_name": "Environmental Chemistry" }, "field": { "id": "https://openalex.org/fields/23", "display_name": "Environmental Science" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T11278", "display_name": "Bioinspired Structural Materials and Biomineralization", "value": 3.03e-05, "subfield": { "id": "https://openalex.org/subfields/2502", "display_name": "Biomaterials" }, "field": { "id": "https://openalex.org/fields/25", "display_name": "Materials Science" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T11588", "display_name": "Global Methane Emissions and Impacts", "value": 2.64e-05, "subfield": { "id": "https://openalex.org/subfields/2306", "display_name": "Global and Planetary Change" }, "field": { "id": "https://openalex.org/fields/23", "display_name": "Environmental Science" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T12157", "display_name": "Machine Learning for Mineral Prospectivity Mapping", "value": 2.49e-05, "subfield": { "id": "https://openalex.org/subfields/1702", "display_name": "Artificial Intelligence" }, "field": { "id": "https://openalex.org/fields/17", "display_name": "Computer Science" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T13193", "display_name": "Geological Evolution of the Arctic Region", "value": 2.22e-05, "subfield": { "id": "https://openalex.org/subfields/1907", "display_name": "Geology" }, "field": { "id": "https://openalex.org/fields/19", "display_name": "Earth and Planetary Sciences" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T10341", "display_name": "Resilience of Coral Reef Ecosystems to Climate Change", "value": 1.38e-05, "subfield": { "id": "https://openalex.org/subfields/2303", "display_name": "Ecology" }, "field": { "id": "https://openalex.org/fields/23", "display_name": "Environmental Science" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T12432", "display_name": "Arctic Shipping and Governance", "value": 1.37e-05, "subfield": { "id": "https://openalex.org/subfields/3312", "display_name": "Sociology and Political Science" }, "field": { "id": "https://openalex.org/fields/33", "display_name": "Social Sciences" }, "domain": { "id": "https://openalex.org/domains/2", "display_name": "Social Sciences" } }, { "id": "https://openalex.org/T10973", "display_name": "Chemistry of Actinide and Lanthanide Elements", "value": 1.27e-05, "subfield": { "id": "https://openalex.org/subfields/1604", "display_name": "Inorganic Chemistry" }, "field": { "id": "https://openalex.org/fields/16", "display_name": "Chemistry" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T11088", "display_name": "Impact of Aquaculture on Marine Ecosystems and Food Supply", "value": 1.26e-05, "subfield": { "id": "https://openalex.org/subfields/2306", "display_name": "Global and Planetary Change" }, "field": { "id": "https://openalex.org/fields/23", "display_name": "Environmental Science" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T11877", "display_name": "Solar Water Splitting Technology", "value": 9.4e-06, "subfield": { "id": "https://openalex.org/subfields/2105", "display_name": "Renewable Energy, Sustainability and the Environment" }, "field": { "id": "https://openalex.org/fields/21", "display_name": "Energy" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T10399", "display_name": "Characterization of Shale Gas Pore Structure", "value": 9.1e-06, "subfield": { "id": "https://openalex.org/subfields/2211", "display_name": "Mechanics of Materials" }, "field": { "id": "https://openalex.org/fields/22", "display_name": "Engineering" }, "domain": { "id": "https://openalex.org/domains/3", "display_name": "Physical Sciences" } }, { "id": "https://openalex.org/T11816", "display_name": "Impact of Nurse Practitioners in Primary Care", "value": "9e-06", "subfield": { "id": "https://openalex.org/subfields/3600", "display_name": "General Health Professions" }, "field": { "id": "https://openalex.org/fields/36", "display_name": "Health Professions" }, "domain": { "id": "https://openalex.org/domains/4", "display_name": "Health Sciences" } } ], "x_concepts": [ { "id": "https://openalex.org/C127313418", "wikidata": "https://www.wikidata.org/wiki/Q1069", "display_name": "Geology", "level": 0, "score": 100.0 }, { "id": "https://openalex.org/C111368507", "wikidata": "https://www.wikidata.org/wiki/Q43518", "display_name": "Oceanography", "level": 1, "score": 95.2 }, { "id": "https://openalex.org/C86803240", "wikidata": "https://www.wikidata.org/wiki/Q420", "display_name": "Biology", "level": 0, "score": 94.5 }, { "id": "https://openalex.org/C18903297", "wikidata": "https://www.wikidata.org/wiki/Q7150", "display_name": "Ecology", "level": 1, "score": 92.4 }, { "id": "https://openalex.org/C185592680", "wikidata": "https://www.wikidata.org/wiki/Q2329", "display_name": "Chemistry", "level": 0, "score": 81.4 }, { "id": "https://openalex.org/C178790620", "wikidata": "https://www.wikidata.org/wiki/Q11351", "display_name": "Organic chemistry", "level": 1, "score": 74.5 }, { "id": "https://openalex.org/C39432304", "wikidata": "https://www.wikidata.org/wiki/Q188847", "display_name": "Environmental science", "level": 0, "score": 64.8 }, { "id": "https://openalex.org/C121332964", "wikidata": "https://www.wikidata.org/wiki/Q413", "display_name": "Physics", "level": 0, "score": 63.4 }, { "id": "https://openalex.org/C197248824", "wikidata": "https://www.wikidata.org/wiki/Q184395", "display_name": "Seawater", "level": 2, "score": 53.1 }, { "id": "https://openalex.org/C192562407", "wikidata": "https://www.wikidata.org/wiki/Q228736", "display_name": "Materials science", "level": 0, "score": 51.0 }, { "id": "https://openalex.org/C107872376", "wikidata": "https://www.wikidata.org/wiki/Q321355", "display_name": "Environmental chemistry", "level": 1, "score": 49.7 }, { "id": "https://openalex.org/C151730666", "wikidata": "https://www.wikidata.org/wiki/Q7205", "display_name": "Paleontology", "level": 1, "score": 48.3 }, { "id": "https://openalex.org/C69661492", "wikidata": "https://www.wikidata.org/wiki/Q1447141", "display_name": "Transect", "level": 2, "score": 46.9 }, { "id": "https://openalex.org/C2778964748", "wikidata": "https://www.wikidata.org/wiki/Q5548618", "display_name": "Geotraces", "level": 3, "score": 46.9 }, { "id": "https://openalex.org/C205649164", "wikidata": "https://www.wikidata.org/wiki/Q1071", "display_name": "Geography", "level": 0, "score": 44.8 }, { "id": "https://openalex.org/C505870484", "wikidata": "https://www.wikidata.org/wiki/Q180538", "display_name": "Fishery", "level": 1, "score": 40.7 }, { "id": "https://openalex.org/C191897082", "wikidata": "https://www.wikidata.org/wiki/Q11467", "display_name": "Metallurgy", "level": 1, "score": 38.6 }, { "id": "https://openalex.org/C127413603", "wikidata": "https://www.wikidata.org/wiki/Q11023", "display_name": "Engineering", "level": 0, "score": 35.2 }, { "id": "https://openalex.org/C122846477", "wikidata": "https://www.wikidata.org/wiki/Q1395805", "display_name": "Water column", "level": 2, "score": 32.4 }, { "id": "https://openalex.org/C24245907", "wikidata": "https://www.wikidata.org/wiki/Q498957", "display_name": "Particulates", "level": 2, "score": 31.7 }, { "id": "https://openalex.org/C62520636", "wikidata": "https://www.wikidata.org/wiki/Q944", "display_name": "Quantum mechanics", "level": 1, "score": 27.6 }, { "id": "https://openalex.org/C142796444", "wikidata": "https://www.wikidata.org/wiki/Q181394", "display_name": "Nutrient", "level": 2, "score": 27.6 }, { "id": "https://openalex.org/C2780892065", "wikidata": "https://www.wikidata.org/wiki/Q184755", "display_name": "Phytoplankton", "level": 3, "score": 27.6 }, { "id": "https://openalex.org/C114793014", "wikidata": "https://www.wikidata.org/wiki/Q52109", "display_name": "Geomorphology", "level": 1, "score": 25.5 }, { "id": "https://openalex.org/C153294291", "wikidata": "https://www.wikidata.org/wiki/Q25261", "display_name": "Meteorology", "level": 1, "score": 25.5 } ], "counts_by_year": [ { "year": 2024, "works_count": 6, "cited_by_count": 728 }, { "year": 2023, "works_count": 9, "cited_by_count": 781 }, { "year": 2022, "works_count": 11, "cited_by_count": 846 }, { "year": 2021, "works_count": 20, "cited_by_count": 994 }, { "year": 2020, "works_count": 16, "cited_by_count": 893 }, { "year": 2019, "works_count": 5, "cited_by_count": 875 }, { "year": 2018, "works_count": 21, "cited_by_count": 659 }, { "year": 2017, "works_count": 10, "cited_by_count": 552 }, { "year": 2016, "works_count": 8, "cited_by_count": 429 }, { "year": 2015, "works_count": 13, "cited_by_count": 630 }, { "year": 2014, "works_count": 2, "cited_by_count": 484 }, { "year": 2013, "works_count": 2, "cited_by_count": 408 }, { "year": 2012, "works_count": 4, "cited_by_count": 291 } ], "works_api_url": "https://api.openalex.org/works?filter=author.id:A5079530473", "updated_date": "2024-08-24T05:38:11.439772", "created_date": "2023-07-21", "_id": "https://openalex.org/A5079530473" }, "ORCID": { "@context": "http://schema.org", "@type": "Person", "@id": "https://orcid.org/0000-0001-6609-698X", "mainEntityOfPage": "https://orcid.org/0000-0001-6609-698X", "givenName": "Phoebe J.", "familyName": "Lam", "affiliation": { "@type": "Organization", "name": "University of California, Santa Cruz", "alternateName": "Ocean Sciences", "identifier": { "@type": "PropertyValue", "propertyID": "RINGGOLD", "value": "8787" } }, "@reverse": { "creator": [ { "@type": "CreativeWork", "@id": "https://doi.org/10.1021/acsestwater.4c00166", "name": "Metal Release from Manganese Nodules in Anoxic Seawater and Implications for Deep-Sea Mining Dewatering Operations", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.1021/acsestwater.4c00166" } }, { "@type": "CreativeWork", "@id": "https://doi.org/10.1126/science.adh8199", "name": "Biogenic-to-lithogenic handoff of particulate Zn affects the Zn cycle in the Southern Ocean", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.1126/science.adh8199" } }, { "@type": "CreativeWork", "@id": "https://doi.org/10.1016/j.gca.2024.03.010", "name": "Refining the roles of productivity, redox, and remineralization on the cadmium isotope composition of marine sediments", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.1016/j.gca.2024.03.010" } }, { "@type": "CreativeWork", "@id": "https://doi.org/10.1029/2023gb007940", "name": "Cycling Rates of Particulate Organic Carbon Along the GEOTRACES Pacific Meridional Transect GP15", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.1029/2023gb007940" } }, { "@type": "CreativeWork", "@id": "https://doi.org/10.1073/pnas.2219688120", "name": "Isotopes illustrate vertical transport of anthropogenic Pb by reversible scavenging within Pacific Ocean particle veils", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.1073/pnas.2219688120" } }, { "@type": "CreativeWork", "@id": "https://doi.org/10.1029/2022jc019470", "name": "Global Trends in the Distribution of Biogenic Minerals in the Ocean", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.1029/2022jc019470" } }, { "@type": "CreativeWork", "@id": "https://doi.org/10.1525/elementa.2021.00018", "name": "Particle cycling rates at Station P as estimated from the inversion of POC concentration data", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.1525/elementa.2021.00018" } }, { "@type": "CreativeWork", "@id": "https://doi.org/10.1029/2022gb007330", "name": "Dissolved and Particulate Barium Distributions Along the US GEOTRACES North Atlantic and East Pacific Zonal Transects (GA03 and GP16): Global Implications for the Marine Barium Cycle", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.1029/2022gb007330" } }, { "@type": "CreativeWork", "@id": "https://doi.org/10.1029/2021jc017970", "name": "Distribution, Sources, and Dynamics of Particulate Matter Along Trans\u2010Arctic Sections", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.1029/2021jc017970" } }, { "@type": "CreativeWork", "@id": "https://doi.org/10.1029/2021gb007292", "name": "Estimating Mass Flux From Size\u2010Fractionated Filtered Particles: Insights Into Controls on Sinking Velocities and Mass Fluxes in Recent U.S. GEOTRACES Cruises", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.1029/2021gb007292" } }, { "@type": "CreativeWork", "@id": "https://doi.org/10.1029/2021jc017417", "name": "Strong Margin Influence on the Arctic Ocean Barium Cycle Revealed by Pan\u2010Arctic Synthesis", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.1029/2021jc017417" } }, { "@type": "CreativeWork", "@id": "https://doi.org/10.1002/essoar.10510438.1", "name": "Water mass analysis of the 2018 US GEOTRACES Pacific Meridional Transect (GP15)", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.1002/essoar.10510438.1" } }, { "@type": "CreativeWork", "@id": "https://doi.org/10.1029/2021gl094805", "name": "Diel Redox Cycle of Manganese in the Surface Arctic Ocean", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.1029/2021gl094805" } }, { "@type": "CreativeWork", "@id": "https://doi.org/10.1029/2021gb006977", "name": "Iron Isotope Biogeochemical Cycling in the Western Arctic Ocean", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.1029/2021gb006977" } }, { "@type": "CreativeWork", "@id": "https://doi.org/10.1002/essoar.10507350.2", "name": "Diel redox cycle of manganese in the surface Arctic Ocean", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.1002/essoar.10507350.2" } }, { "@type": "CreativeWork", "@id": "https://doi.org/10.1002/essoar.10507889.1", "name": "Distribution, Sources, and Dynamics of Particulate Matter Along Trans-Arctic Sections", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.1002/essoar.10507889.1" } }, { "@type": "CreativeWork", "@id": "https://doi.org/10.1002/essoar.10507876.1", "name": "Distribution, Sources, and Dynamics of Particulate Matter Along Trans-Arctic Sections", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.1002/essoar.10507876.1" } }, { "@type": "CreativeWork", "@id": "https://doi.org/10.1002/essoar.10507350.1", "name": "Diel redox cycle of manganese in the surface Arctic Ocean", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.1002/essoar.10507350.1" } }, { "@type": "CreativeWork", "@id": "https://doi.org/10.1021/acsearthspacechem.1c00091", "name": "Marine Particle Chemistry: Influence on Biogeochemical Cycles and Particle Export", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.1021/acsearthspacechem.1c00091" } }, { "@type": "CreativeWork", "@id": "https://doi.org/10.1016/j.gca.2021.02.020", "name": "Changing chemistry of particulate manganese in the near- and far-field hydrothermal plumes from 15\u00b0S East Pacific Rise and its influence on metal scavenging", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.1016/j.gca.2021.02.020" } }, { "@type": "CreativeWork", "@id": "https://doi.org/10.1002/essoar.10506680.1", "name": "Strong margin influence on the Arctic Ocean barium cycle revealed by Pan-Arctic synthesis", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.1002/essoar.10506680.1" } }, { "@type": "CreativeWork", "@id": "https://doi.org/10.1002/essoar.10505615.1", "name": "Controls on sinking velocities and mass fluxes of size-fractionated marine particles in recent U.S. GEOTRACES cruises", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.1002/essoar.10505615.1" } }, { "@type": "CreativeWork", "@id": "https://doi.org/10.1029/2020jc016144", "name": "Size\u2010Fractionated Compositions of Marine Suspended Particles in the Western Arctic Ocean: Lateral and Vertical Sources", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.1029/2020jc016144" } }, { "@type": "CreativeWork", "name": "A model study of the relative influences of scavenging and circulation on 230Th and 231Pa in the western North Atlantic" }, { "@type": "CreativeWork", "name": "An intermediate-depth source of hydrothermal 3He and dissolved iron in the North Pacific" }, { "@type": "CreativeWork", "name": "Autonomous Optics of the Ocean Biological Carbon Pump: PIC and particle birefringence along the GEOTRACES GP15 transect." }, { "@type": "CreativeWork", "name": "Barite precipitation on suspended organic matter in the mesopelagic zone" }, { "@type": "CreativeWork", "name": "Basin-scale variations of particulate organic matter stoichiometry in the global ocean" }, { "@type": "CreativeWork", "name": "Carbon export and particulate trace metal cycling across the Western Arctic Ocean" }, { "@type": "CreativeWork", "@id": "https://doi.org/10.1021/acsearthspacechem.0c00067", "name": "Diagnostic morphology and solid-state chemical speciation of hydrothermally derived particulate Fe in a long-range dispersing plume", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.1021/acsearthspacechem.0c00067" } }, { "@type": "CreativeWork", "name": "Dissolved cobalt speciation along the GEOTRACES Pacific meridional transect (GP15)" }, { "@type": "CreativeWork", "name": "ESTIMATION OF PARTICLE (DIS) AGGREGATION RATES FROM THE JOINT INVERSION OF POC, Al, AND Ti CONCENTRATION DATA" }, { "@type": "CreativeWork", "name": "Estimation of the Rates of Particle Aggregation and Disaggregation in the Mesopelagic Zone of the Eastern North Pacific" }, { "@type": "CreativeWork", "name": "Geographic and Oceanographic Influences on Ferromanganese Crust Composition Along a Pacific Ocean Meridional Transect, 14 N to 14S" }, { "@type": "CreativeWork", "name": "Insights into carbon export and remineralization fluxes using 234 Th distribution along the GEOTRACES Pacific Meridional transect" }, { "@type": "CreativeWork", "name": "Inter-Basin Comparison of Boundary Scavenging Expressed in Dissolved and Particulate Thorium and Protactinium Along GEOTRACES GN01, GP16, and GA03 Transects" }, { "@type": "CreativeWork", "@id": "https://doi.org/10.1029/2020gb006592", "name": "Ironing out Fe residence time in the dynamic upper ocean", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.1029/2020gb006592" } }, { "@type": "CreativeWork", "name": "Particulate Organic Carbon Sampling and Measurement Protocols: Consensus Towards Future Ocean Color Missions" }, { "@type": "CreativeWork", "name": "Revealing Biogeochemical Processes on Basin Scales through Ocean Transects" }, { "@type": "CreativeWork", "name": "Size-Fractionated Compositions of Marine Suspended Particles in the Western Arctic Ocean: Lateral and Vertical Sources" }, { "@type": "CreativeWork", "name": "The Distribution of Particulate Trace Elements along a Meridional Transact in the Pacific" }, { "@type": "CreativeWork", "name": "The Transpolar Drift as a Source of Riverine and Shelf-Derived Trace Elements to the Central Arctic Ocean" }, { "@type": "CreativeWork", "name": "To the North Pole and Back: A Pan-Arctic Barium Synthesis" }, { "@type": "CreativeWork", "name": "Trace Metal Substitution in Marine Phytoplankton" }, { "@type": "CreativeWork", "@id": "https://doi.org/10.1021/acsearthspacechem.0c00066", "name": "Unexpected source and transport of iron from the deep Peru Margin", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.1021/acsearthspacechem.0c00066" } }, { "@type": "CreativeWork", "name": "Variability in 210Pb and 210Po partition coefficients (Kd) along the US GEOTRACES Arctic transect" }, { "@type": "CreativeWork", "@id": "https://doi.org/10.1029/2018gb005985", "name": "Insights From the 238U\u2010234Th Method Into the Coupling of Biological Export and the Cycling of Cadmium, Cobalt, and Manganese in the Southeast Pacific Ocean", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.1029/2018gb005985" } }, { "@type": "CreativeWork", "name": "Barite formation in the ocean: Origin of amorphous and crystalline precipitates" }, { "@type": "CreativeWork", "name": "Insights From the 238U-234Th Method Into the Coupling of Biological Export and the Cycling of Cadmium, Cobalt, and Manganese in the Southeast Pacific Ocean" }, { "@type": "CreativeWork", "name": "Mechanisms of pelagic barite precipitation" }, { "@type": "CreativeWork", "name": "Shallow particulate organic carbon regeneration in the South Pacific Ocean" }, { "@type": "CreativeWork", "name": "The Influence of the Deep Western Boundary Current on 231Pa and 230Th in the Northwest Atlantic." }, { "@type": "CreativeWork", "@id": "https://doi.org/10.1016/j.marchem.2017.08.013", "name": "Size-fractionated distributions of suspended particle concentration and major phase composition from the U.S. GEOTRACES Eastern Pacific Zonal Transect (GP16)", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.1016/j.marchem.2017.08.013" } }, { "@type": "CreativeWork", "name": "234Th as a tracer of particulate export and remineralization in the southeastern tropical Pacific" }, { "@type": "CreativeWork", "name": "A global compilation of coccolithophore calcification rates" }, { "@type": "CreativeWork", "name": "Authigenic and Biogenic Controls on Metal Isotope Fractionation in the Southern Ocean" }, { "@type": "CreativeWork", "name": "Biogeochemical cycling of Fe and Fe stable isotopes in the Eastern Tropical South Pacific" }, { "@type": "CreativeWork", "name": "Characterization of particulate Mn in the East Pacific Rise hydrothermal plume" }, { "@type": "CreativeWork", "name": "Cobalt scavenging in the mesopelagic ocean and its influence on global mass balance: Synthesizing water column and sedimentary fluxes" }, { "@type": "CreativeWork", "name": "Comparisons of size-fractioned suspended particles in three different basins from the US GEOTRACES NAZT (GA03), EPZT (GP16) and Arctic (GN01) Cruises" }, { "@type": "CreativeWork", "name": "Corrigendum to \u201cEffects of particle composition on thorium scavenging in the North Atlantic\u201d[Geochim. Cosmochim. Acta 233 (2018) 115--134]" }, { "@type": "CreativeWork", "name": "Distribution and isotopic signature of ligand-leachable particulate iron along the GEOTRACES GP16 East Pacific Zonal Transect" }, { "@type": "CreativeWork", "name": "Distribution of Particulate Rare Earth Elements in the Western Arctic" }, { "@type": "CreativeWork", "name": "Effects of particle composition on thorium scavenging in the North Atlantic" }, { "@type": "CreativeWork", "name": "Flux of particulate elements in the North Atlantic Ocean constrained by multiple radionuclides" }, { "@type": "CreativeWork", "name": "GEOTRACES: The marine biogeochemical cycle of trace elements and their isotopes" }, { "@type": "CreativeWork", "@id": "https://doi.org/10.1029/2017gb005842", "name": "Global spatial and temporal variation of Cd: P in euphotic zone particulates", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.1029/2017gb005842" } }, { "@type": "CreativeWork", "name": "Intense hydrothermal scavenging of 230Th and 231Pa in the deep Southeast Pacific" }, { "@type": "CreativeWork", "name": "Iron and carbon speciation in the far-field GP 16 Southern East Pacific Rise hydrothermal plume" }, { "@type": "CreativeWork", "name": "Near-field iron and carbon chemistry of non-buoyant hydrothermal plume particles, Southern East Pacific Rise 15 S" }, { "@type": "CreativeWork", "name": "Nitrogen and oxygen isotope measurements of nitrate along the US GEOTRACES Eastern Pacific Zonal Transect (GP16) yield insights into nitrate supply, remineralization, and water mass transport" }, { "@type": "CreativeWork", "name": "Optical observation of particles and responses to particle composition in the GEOTRACES GP16 section" }, { "@type": "CreativeWork", "name": "Particulate export and upper ocean residence times of trace metals in the southeastern tropical Pacific" }, { "@type": "CreativeWork", "name": "Size distribution of particulate trace elements in the US GEOTRACES Eastern Pacific Zonal Transect (GP16)" }, { "@type": "CreativeWork", "name": "Size-fractionated distributions of suspended particle concentration and major phase composition from the US GEOTRACES Eastern Pacific Zonal Transect (GP16)" }, { "@type": "CreativeWork", "name": "The GEOTRACES Intermediate Data Product 2017" }, { "@type": "CreativeWork", "name": "The GEOTRACES Intermediate Data Product 2017" }, { "@type": "CreativeWork", "name": "The GEOTRACES intermediate data product 2017" }, { "@type": "CreativeWork", "name": "The US GEOTRACES eastern tropical Pacific transect (GP16)" }, { "@type": "CreativeWork", "name": "The distribution of dissolved and particulate Mo and V along the US GEOTRACES East Pacific Zonal Transect (GP16): the roles of oxides and biogenic particles in their distributions in the oxygen deficient zone and the hydrothermal plume" }, { "@type": "CreativeWork", "@id": "https://doi.org/10.1002/lom3.10245", "name": "The effect of sample drying temperature on marine particulate organic carbon composition", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.1002/lom3.10245" } }, { "@type": "CreativeWork", "name": "US GEOTRACES Pacific Meridional Transect--GP15 Cruise Report" }, { "@type": "CreativeWork", "@id": "https://doi.org/10.1002/2017gc007186", "name": "Arctic Deep Water Ferromanganese\u2010Oxide Deposits Reflect the Unique Characteristics of the Arctic Ocean", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.1002/2017gc007186" } }, { "@type": "CreativeWork", "name": "Accumulation of Fe oxyhydroxides in the Peruvian oxygen deficient zone implies non-oxygen dependent Fe oxidation" }, { "@type": "CreativeWork", "name": "Arctic Deep Water Ferromanganese-Oxide Deposits Reflect the Unique Characteristics of the Arctic Ocean" }, { "@type": "CreativeWork", "name": "Coastal sources, sinks and strong organic complexation of dissolved cobalt within the US North Atlantic GEOTRACES transect GA03" }, { "@type": "CreativeWork", "name": "Influence of particle composition on thorium cycling along the US GEOTRACES North Atlantic Section" }, { "@type": "CreativeWork", "name": "Kinetics of thorium and particle cycling along the US GEOTRACES North Atlantic Transect" }, { "@type": "CreativeWork", "name": "Mesoscale variability of the summer bloom over the northern Ross Sea shelf: A tale of two banks" }, { "@type": "CreativeWork", "name": "Perspectives on Chemical Oceanography in the 21st century: Participants of the COME ABOARD Meeting examine aspects of the field in the context of 40 years of DISCO" }, { "@type": "CreativeWork", "name": "Size-fractionated major and minor particle composition and concentration collected from RV Thompson (TN303) along the US GEOTRACES EPZT transect in the eastern tropical Pacific during 2013 (US GEOTRACES EPZT project). Biological and chemical oceanography data management office (BCO-DMO)" }, { "@type": "CreativeWork", "name": "The acceleration of dissolved cobalt's ecological stoichiometry due to biological uptake, remineralization, and scavenging in the Atlantic Ocean" }, { "@type": "CreativeWork", "name": "The influence of particle concentration and composition on the fractionation of 210Po and 210Pb along the North Atlantic GEOTRACES transect GA03" }, { "@type": "CreativeWork", "name": "The relative roles of modified circumpolar deep water and benthic sources in supplying iron to the recurrent phytoplankton blooms above Pennell and Mawson Banks, Ross Sea, Antarctica" }, { "@type": "CreativeWork", "name": "230 Th and 231 Pa in Seawater Sinking Particles from the North Atlantic GEOTRACES Transect" }, { "@type": "CreativeWork", "name": "230 Thand 231 Pa in Seawater Sinking Particles from the North Atlantic GEOTRACES Transect" }, { "@type": "CreativeWork", "name": "234 Th distribution along the Eastern Pacific GEOTRACES transect and implications for export and remineralization fluxes of carbon and TEIs" }, { "@type": "CreativeWork", "name": "Coastal ocean and shelf-sea biogeochemical cycling of trace elements and isotopes: lessons learned from GEOTRACES" }, { "@type": "CreativeWork", "name": "Controls over ocean mesopelagic interior carbon storage (COMICS): fieldwork, synthesis, and modeling efforts" }, { "@type": "CreativeWork", "name": "Export and transfer of Southern Ocean particulate organic carbon through the lens of ramped oxidation" }, { "@type": "CreativeWork", "name": "Factors regulating the Great Calcite Belt in the Southern Ocean and its biogeochemical significance" }, { "@type": "CreativeWork", "name": "How well can we quantify dust deposition to the ocean?" }, { "@type": "CreativeWork", "name": "Particle Cycling in the Ocean based on Titanium and Particle Concentration Data from the US GEOTRACES North Atlantic Transect" }, { "@type": "CreativeWork", "name": "Particulate Iron Speciation and Transport in the East Pacific Rise 15 o S Hydrothermal\" Mega\" Plume" }, { "@type": "CreativeWork", "name": "Particulate Trace and Minor Element Behavior in a Dust-dominated Basin: Results from the US GEOTRACES North Atlantic Zonal Transect (GA03)" }, { "@type": "CreativeWork", "name": "Suspended Particulate Pb from the North Atlantic US GEOTRACES (GA-03) Section can be Estimated from Dissolved Pb Using a Two Phase Partition Coefficient Model" }, { "@type": "CreativeWork", "name": "Testing models of thorium and particle cycling in the ocean using data from station GT11-22 of the US GEOTRACES North Atlantic Section (vol 113, pg 57, 2016)" }, { "@type": "CreativeWork", "name": "Testing models of thorium and particle cycling in the ocean using data from station GT11-22 of the US GEOTRACES North Atlantic section" }, { "@type": "CreativeWork", "name": "The Role of Particles in the Cycling of Trace Elements and Their Isotopes in the Ocean I" }, { "@type": "CreativeWork", "name": "Westward Penetration of Particulate and Dissolved Iron Redox Species from the Peruvian Margin" }, { "@type": "CreativeWork", "@id": "https://doi.org/10.5194/bg-12-3953-2015", "name": "Carbon export and transfer to depth across the Southern Ocean Great Calcite Belt", "identifier": { "@type": "PropertyValue", "propertyID": "doi", "value": "10.5194/bg-12-3953-2015" } }, { "@type": "CreativeWork", "name": "Carbon export and transfer to depth across the Southern Ocean Great Calcite Belt" }, { "@type": "CreativeWork", "name": "Comparison of particulate trace element concentrations in the North Atlantic Ocean as determined with discrete bottle sampling and in situ pumping" }, { "@type": "CreativeWork", "name": "Cycling of lithogenic marine particles in the US GEOTRACES North Atlantic transect" }, { "@type": "CreativeWork", "name": "Dynamic variability of dissolved Pb and Pb isotope composition from the US North Atlantic GEOTRACES transect" }, { "@type": "CreativeWork", "name": "Insights into particle cycling from thorium and particle data" }, { "@type": "CreativeWork", "name": "Intensity of Th and Pa scavenging partitioned by particle chemistry in the North Atlantic Ocean" }, { "@type": "CreativeWork", "name": "Methods for analyzing the concentration and speciation of major and trace elements in marine particles" }, { "@type": "CreativeWork", "name": "Size-fractionated major particle composition and concentrations from the US GEOTRACES North Atlantic Zonal Transect" }, { "@type": "CreativeWork", "name": "Small phytoplankton drive high summertime carbon and nutrient export in the Gulf of California and Eastern Tropical North Pacific" }, { "@type": "CreativeWork", "name": "Speciation of particulate iron in marine geochemical gradients" }, { "@type": "CreativeWork", "name": "The GEOTRACES Intermediate Data Product 2014" }, { "@type": "CreativeWork", "name": "The GEOTRACES intermediate data product 2014" }, { "@type": "CreativeWork", "name": "The isotopic signature and distribution of particulate iron in the North Atlantic Ocean" }, { "@type": "CreativeWork", "name": "The oceanographic toolbox for the collection of sinking and suspended marine particles" }, { "@type": "CreativeWork", "name": "The roles of MCDW and deep water iron supply in sustaining a recurrent phytoplankton bloom on central Pennell Bank (Ross Sea)" }, { "@type": "CreativeWork", "name": "What did we learn about ocean particle dynamics in the GEOSECS--JGOFS era?" }, { "@type": "CreativeWork", "name": "A global ocean inventory of anthropogenic mercury based on water column measurements" }, { "@type": "CreativeWork", "name": "Dynamics of particulate organic carbon flux in a global ocean model" }, { "@type": "CreativeWork", "name": "Laboratory intercomparison of marine particulate digestions including Piranha: a novel chemical method for dissolution of polyethersulfone filters" }, { "@type": "CreativeWork", "name": "Proxy Applications of Pa/Th Investigated with Scavenging Chemistry in the North Atlantic" }, { "@type": "CreativeWork", "name": "Proxy Applications of Pa/Th Investigated with Scavenging Chemistry in the North Atlantic" }, { "@type": "CreativeWork", "name": "The Speciation of Particulate Iron and Carbon in the East Pacific Rise 15 o S Near-field Hydrothermal Plume and Underlying Sediments" }, { "@type": "CreativeWork", "name": "The speciation of particulate iron in the Peruvian Oxygen Minimum Zone" }, { "@type": "CreativeWork", "name": "Visualising Fe speciation diversity in ocean particulate samples by micro X-ray absorption near-edge spectroscopy" }, { "@type": "CreativeWork", "name": "In situ marine sample collection system and methods" }, { "@type": "CreativeWork", "name": "Dynamics of particulate organic carbon flux in a global ocean model" }, { "@type": "CreativeWork", "name": "Transient stratification as the cause of the North Pacific productivity spike during deglaciation" }, { "@type": "CreativeWork", "name": "Basin-scale inputs of cobalt, iron, and manganese from the Benguela-Angola front to the South Atlantic Ocean" }, { "@type": "CreativeWork", "name": "Getting good particles: Accurate sampling of particles by large volume in-situ filtration" }, { "@type": "CreativeWork", "name": "Measures" }, { "@type": "CreativeWork", "name": "Scavenging and fractionation of 231 Pa/230 Th in the US North Atlantic GEOTRACES transect" }, { "@type": "CreativeWork", "name": "The speciation of marine particulate iron adjacent to active and passive continental margins" }, { "@type": "CreativeWork", "name": "What can paired measurements of Th isotope activity and particle concentration tell us about particle cycling in the ocean?" }, { "@type": "CreativeWork", "name": "Carbon export production in the subantarctic zone and polar front zone south of Tasmania" }, { "@type": "CreativeWork", "name": "Distributions of dissolved and particulate iron in the sub-Antarctic and Polar Frontal Southern Ocean (Australian sector)" }, { "@type": "CreativeWork", "name": "Paleo-iron supply to the Western Subarctic Pacific since the last glaciation" }, { "@type": "CreativeWork", "name": "The dynamic ocean biological pump: Insights from a global compilation of particulate organic carbon, CaCO3, and opal concentration profiles from the mesopelagic" }, { "@type": "CreativeWork", "name": "A Global Compilation of POC, CaCO 3, and Opal Concentration Profiles in the Mesopelagic" }, { "@type": "CreativeWork", "name": "Different biogeochemical processes drive seasonal iron supply in the subantarctic and polar Southern Ocean south of Australia" }, { "@type": "CreativeWork", "name": "Ocean fertilization: a scientific summary for policy makers" }, { "@type": "CreativeWork", "name": "Speciation and export of particulate iron from the Northwest African continental margin into the water column" }, { "@type": "CreativeWork", "name": "Biogeochemical iron budgets of the Southern Ocean south of Australia: Decoupling of iron and nutrient cycles in the subantarctic zone by the summertime supply" }, { "@type": "CreativeWork", "name": "Different processes drive biogeochemical iron budgets in the subantarctic and polar Southern Ocean" }, { "@type": "CreativeWork", "name": "Aerosol Chemistry from the Pacific and North Atlantic Oceans: Results from the CLIVAR/Repeat Hydrography Program" }, { "@type": "CreativeWork", "name": "Sinking fluxes of minor and trace elements in the North Pacific Ocean measured during the VERTIGO program" }, { "@type": "CreativeWork", "name": "The continental margin is a key source of iron to the HNLC North Pacific Ocean" }, { "@type": "CreativeWork", "name": "Twilight zone C mineralization under different regimes of macro-and micronutrient availabilities in the Southern Ocean" }, { "@type": "CreativeWork", "name": "VERTIGO (VERtical Transport In the Global Ocean): A study of particle sources and flux attenuation in the North Pacific" }, { "@type": "CreativeWork", "name": "High biomass, low export regimes in the Southern Ocean" }, { "@type": "CreativeWork", "name": "Revisiting Carbon Flux Through the Ocean's Twilight Zone" }, { "@type": "CreativeWork", "name": "Revisiting carbon flux through the ocean's twilight zone" }, { "@type": "CreativeWork", "name": "Wintertime phytoplankton bloom in the subarctic Pacific supported by continental margin iron" }, { "@type": "CreativeWork", "name": "Marine particulate matter in the twilight zone: Insights on iron cycling and remineralization of particulate organic carbon in the ocean" }, { "@type": "CreativeWork", "name": "Biogeochemical processes in mid-ocean ridge hydrothermal plumes" }, { "@type": "CreativeWork", "name": "Continental Delivery of Iron to Ocean Station Papa in the Subarctic Pacific" }, { "@type": "CreativeWork", "name": "The Fate of Ammonium in the Endeavour Hydrothermal Plume: Microbial Ammonia Oxidation and Ammonium Assimilation" }, { "@type": "CreativeWork", "name": "Iron fertilization of the Oceans: Reconciling Commercial Claims with Published Models" }, { "@type": "CreativeWork", "name": "Large volume In-situ filtration during sofex: an overview of preliminary results" }, { "@type": "CreativeWork", "name": "Characterization of Fe in marine particulates via micro-XAS: possibilities and limitations" }, { "@type": "CreativeWork", "name": "Differential effects of iron additions on organic and inorganic carbon production by phytoplankton" }, { "@type": "CreativeWork", "name": "Does Copper Influence the Distribution of Prochlorococcus in the Sargasso Sea?" }, { "@type": "CreativeWork", "name": "Authigenic cadmium enrichments in suboxic sediments: Precipitation and postdepositional mobility" }, { "@type": "CreativeWork", "name": "A1. SAMPLE COLLECTION AND SELECTION" }, { "@type": "CreativeWork", "name": "Effects of Metal Manipulations on PIC and POC Production in the Subarctic Pacific" }, { "@type": "CreativeWork", "name": "Particulate Chemical Signatures during VERTIGO." }, { "@type": "CreativeWork", "name": "Revisiting Carbon Flux Through the Ocean's Twilight Zone" } ] } }
}