An Integrated Assessment Model for Helping the United States Sea Scallop (Placopecten magellanicus) Fishery Plan Ahead for Ocean Acidification and Warming
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{"title"=>"An integrated assessment model for helping the united states sea scallop (Placopecten magellanicus) fishery plan ahead for ocean acidification and warming", "type"=>"journal", "authors"=>[{"first_name"=>"Sarah R.", "last_name"=>"Cooley", "scopus_author_id"=>"35387677700"}, {"first_name"=>"Jennie E.", "last_name"=>"Rheuban", "scopus_author_id"=>"55331278900"}, {"first_name"=>"Deborah R.", "last_name"=>"Hart", "scopus_author_id"=>"7402132627"}, {"first_name"=>"Victoria", "last_name"=>"Luu", "scopus_author_id"=>"56638183400"}, {"first_name"=>"David M.", "last_name"=>"Glover", "scopus_author_id"=>"35601668000"}, {"first_name"=>"Jonathan A.", "last_name"=>"Hare", "scopus_author_id"=>"7202170172"}, {"first_name"=>"Scott C.", "last_name"=>"Doney", "scopus_author_id"=>"35498837200"}], "year"=>2015, "source"=>"PLoS ONE", "identifiers"=>{"pui"=>"604276733", "sgr"=>"84929104139", "issn"=>"19326203", "pmid"=>"25945497", "scopus"=>"2-s2.0-84929104139", "doi"=>"10.1371/journal.pone.0124145", "isbn"=>"1932-6203"}, "id"=>"e7907c5a-2140-3207-89e8-211d9a595719", "abstract"=>"Ocean acidification, the progressive change in ocean chemistry caused by uptake of atmospheric CO2, is likely to affect some marine resources negatively, including shellfish. The Atlantic sea scallop (Placopecten magellanicus) supports one of the most economically important single-species commercial fisheries in the United States. Careful management appears to be the most powerful short-term factor affecting scallop populations, but in the coming decades scallops will be increasingly influenced by global environmental changes such as ocean warming and ocean acidification. In this paper, we describe an integrated assessment model (IAM) that numerically simulates oceanographic, population dynamic, and socioeconomic relationships for the U.S. commercial sea scallop fishery. Our primary goal is to enrich resource management deliberations by offering both short- and long-term insight into the system and generating detailed policy-relevant information about the relative effects of ocean acidification, temperature rise, fishing pressure, and socioeconomic factors on the fishery using a simplified model system. Starting with relationships and data used now for sea scallop fishery management, the model adds socioeconomic decision making based on static economic theory and includes ocean biogeochemical change resulting from CO2 emissions. The model skillfully reproduces scallop population dynamics, market dynamics, and seawater carbonate chemistry since 2000. It indicates sea scallop harvests could decline substantially by 2050 under RCP 8.5 CO2 emissions and current harvest rules, assuming that ocean acidification affects P. magellanicus by decreasing recruitment and slowing growth, and that ocean warming increases growth. Future work will explore different economic and management scenarios and test how potential impacts of ocean acidification on other scallop biological parameters may influence the social-ecological system. Future empirical work on the effect of ocean acidification on sea scallops is also needed.", "link"=>"http://www.mendeley.com/research/integrated-assessment-model-helping-united-states-sea-scallop-placopecten-magellanicus-fishery-plan", "reader_count"=>55, "reader_count_by_academic_status"=>{"Unspecified"=>1, "Professor > Associate Professor"=>3, "Researcher"=>20, "Student > Doctoral Student"=>7, "Student > Ph. D. Student"=>6, "Student > Postgraduate"=>1, "Other"=>4, "Student > Master"=>8, "Student > Bachelor"=>4, "Professor"=>1}, "reader_count_by_user_role"=>{"Unspecified"=>1, "Professor > Associate Professor"=>3, "Researcher"=>20, "Student > Doctoral Student"=>7, "Student > Ph. D. Student"=>6, "Student > Postgraduate"=>1, "Other"=>4, "Student > Master"=>8, "Student > Bachelor"=>4, "Professor"=>1}, "reader_count_by_subject_area"=>{"Engineering"=>1, "Unspecified"=>1, "Environmental Science"=>15, "Agricultural and Biological Sciences"=>23, "Medicine and Dentistry"=>1, "Business, Management and Accounting"=>1, "Physics and Astronomy"=>1, "Earth and Planetary Sciences"=>10, "Economics, Econometrics and Finance"=>2}, "reader_count_by_subdiscipline"=>{"Engineering"=>{"Engineering"=>1}, "Medicine and Dentistry"=>{"Medicine and Dentistry"=>1}, "Physics and Astronomy"=>{"Physics and Astronomy"=>1}, "Earth and Planetary Sciences"=>{"Earth and Planetary Sciences"=>10}, "Economics, Econometrics and Finance"=>{"Economics, Econometrics and Finance"=>2}, "Agricultural and Biological Sciences"=>{"Agricultural and Biological Sciences"=>23}, "Business, Management and Accounting"=>{"Business, Management and Accounting"=>1}, "Unspecified"=>{"Unspecified"=>1}, "Environmental Science"=>{"Environmental Science"=>15}}, "reader_count_by_country"=>{"United States"=>4, "South Africa"=>1, "Mexico"=>1, "Chile"=>1, "Germany"=>1, "Spain"=>1}, "group_count"=>6}

Scopus | Further Information

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Figshare

  • {"files"=>["https://ndownloader.figshare.com/files/2056575"], "description"=>"<p>Includes 8 different species from 6 different studies. Dashed lines are 95% confidence intervals.</p>", "links"=>[], "tags"=>["iam", "sea scallop fishery management", "seawater carbonate chemistry", "sea scallop harvests", "CO 2 emissions", "Integrated Assessment Model", "RCP 8.5 CO 2 emissions", "ocean acidification", "scallop population dynamics", "Placopecten magellanicus", "sea scallop fishery", "U.S", "Atlantic sea scallop", "ocean biogeochemical change", "ocean warming increases growth", "United States Sea Scallop", "resource management deliberations", "model"], "article_id"=>1406208, "categories"=>["Biological Sciences", "Ecology"], "users"=>["Sarah R. Cooley", "Jennie E. Rheuban", "Deborah R. Hart", "Victoria Luu", "David M. Glover", "Jonathan A. Hare", "Scott C. Doney"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0124145.g003", "stats"=>{"downloads"=>2, "page_views"=>12, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Relative_change_in_adult_juvenile_gt_40_mm_bivalve_growth_or_calcification_vs_relative_change_in_937_from_literature_studies_/1406208", "title"=>"Relative change in adult/juvenile (>40 mm) bivalve growth or calcification vs. relative change in Ω from literature studies.", "pos_in_sequence"=>0, "defined_type"=>1, "published_date"=>"2015-05-06 03:28:21"}
  • {"files"=>["https://ndownloader.figshare.com/files/2056573"], "description"=>"<p>Values are adjusted to 2011 US dollars.</p>", "links"=>[], "tags"=>["iam", "sea scallop fishery management", "seawater carbonate chemistry", "sea scallop harvests", "CO 2 emissions", "Integrated Assessment Model", "RCP 8.5 CO 2 emissions", "ocean acidification", "scallop population dynamics", "Placopecten magellanicus", "sea scallop fishery", "U.S", "Atlantic sea scallop", "ocean biogeochemical change", "ocean warming increases growth", "United States Sea Scallop", "resource management deliberations", "model"], "article_id"=>1406206, "categories"=>["Biological Sciences", "Ecology"], "users"=>["Sarah R. Cooley", "Jennie E. Rheuban", "Deborah R. Hart", "Victoria Luu", "David M. Glover", "Jonathan A. Hare", "Scott C. Doney"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0124145.g001", "stats"=>{"downloads"=>0, "page_views"=>5, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_US_sea_scallop_harvests_through_time_NMFS_commercial_harvest_data_accessed_January_28_2014_/1406206", "title"=>"US sea scallop harvests through time (NMFS commercial harvest data accessed January 28, 2014).", "pos_in_sequence"=>0, "defined_type"=>1, "published_date"=>"2015-05-06 03:28:21"}
  • {"files"=>["https://ndownloader.figshare.com/files/2056584"], "description"=>"<p>Items, except for discard mortality rates, have different values for Georges Bank (GB) and Mid Atlantic (MA).</p><p>Parameters for the scallop submodel.</p>", "links"=>[], "tags"=>["iam", "sea scallop fishery management", "seawater carbonate chemistry", "sea scallop harvests", "CO 2 emissions", "Integrated Assessment Model", "RCP 8.5 CO 2 emissions", "ocean acidification", "scallop population dynamics", "Placopecten magellanicus", "sea scallop fishery", "U.S", "Atlantic sea scallop", "ocean biogeochemical change", "ocean warming increases growth", "United States Sea Scallop", "resource management deliberations", "model"], "article_id"=>1406217, "categories"=>["Biological Sciences", "Ecology"], "users"=>["Sarah R. Cooley", "Jennie E. Rheuban", "Deborah R. Hart", "Victoria Luu", "David M. Glover", "Jonathan A. Hare", "Scott C. Doney"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0124145.t002", "stats"=>{"downloads"=>1, "page_views"=>22, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Parameters_for_the_scallop_submodel_/1406217", "title"=>"Parameters for the scallop submodel.", "pos_in_sequence"=>0, "defined_type"=>3, "published_date"=>"2015-05-06 03:28:21"}
  • {"files"=>["https://ndownloader.figshare.com/files/2056582"], "description"=>"<p>Deep box (A) pH and (B) calcite saturation state from Georges Bank, (C) landings, (D) total spawning stock biomass (scallops >40mm shell height), (E) revenue (2011 USD), and (F) fractional landings in category U10 (meat weight 10 and under scallops/lb).</p>", "links"=>[], "tags"=>["iam", "sea scallop fishery management", "seawater carbonate chemistry", "sea scallop harvests", "CO 2 emissions", "Integrated Assessment Model", "RCP 8.5 CO 2 emissions", "ocean acidification", "scallop population dynamics", "Placopecten magellanicus", "sea scallop fishery", "U.S", "Atlantic sea scallop", "ocean biogeochemical change", "ocean warming increases growth", "United States Sea Scallop", "resource management deliberations", "model"], "article_id"=>1406215, "categories"=>["Biological Sciences", "Ecology"], "users"=>["Sarah R. Cooley", "Jennie E. Rheuban", "Deborah R. Hart", "Victoria Luu", "David M. Glover", "Jonathan A. Hare", "Scott C. Doney"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0124145.g010", "stats"=>{"downloads"=>1, "page_views"=>13, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Mean_SD_n_100_model_forecasts_out_to_2050_using_CO_2_forcing_from_RCP_8_5_and_1_4_176_C_SST_warming_blue_and_forecasts_with_constant_2008_CO_2_concentration_and_temperature_red_/1406215", "title"=>"Mean ± SD (n = 100) model forecasts out to 2050 using CO<sub>2</sub> forcing from RCP 8.5 and 1.4°C SST warming (blue) and forecasts with constant 2008 CO<sub>2</sub> concentration and temperature (red).", "pos_in_sequence"=>0, "defined_type"=>1, "published_date"=>"2015-05-06 03:28:21"}
  • {"files"=>["https://ndownloader.figshare.com/files/2056583"], "description"=>"<p>Items have different values for Georges Bank (GB) and Mid Atlantic (MA).</p><p>Parameters from BGC model.</p>", "links"=>[], "tags"=>["iam", "sea scallop fishery management", "seawater carbonate chemistry", "sea scallop harvests", "CO 2 emissions", "Integrated Assessment Model", "RCP 8.5 CO 2 emissions", "ocean acidification", "scallop population dynamics", "Placopecten magellanicus", "sea scallop fishery", "U.S", "Atlantic sea scallop", "ocean biogeochemical change", "ocean warming increases growth", "United States Sea Scallop", "resource management deliberations", "model"], "article_id"=>1406216, "categories"=>["Biological Sciences", "Ecology"], "users"=>["Sarah R. Cooley", "Jennie E. Rheuban", "Deborah R. Hart", "Victoria Luu", "David M. Glover", "Jonathan A. Hare", "Scott C. Doney"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0124145.t001", "stats"=>{"downloads"=>2, "page_views"=>15, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Parameters_from_BGC_model_/1406216", "title"=>"Parameters from BGC model.", "pos_in_sequence"=>0, "defined_type"=>3, "published_date"=>"2015-05-06 03:28:21"}
  • {"files"=>["https://ndownloader.figshare.com/files/2056581"], "description"=>"<p>(A) Georges Bank and (B) Mid-Atlantic surface pCO<sub>2</sub> from the box model (solid), the global CESM model (dashed), and atmospheric CO<sub>2</sub> forcing (heavy solid). Open circles are from the SOCAT gridded database [<a href=\"http://www.plosone.org/article/info:doi/10.1371/journal.pone.0124145#pone.0124145.ref068\" target=\"_blank\">68</a>] and closed circles are from the GOMECC I [<a href=\"http://www.plosone.org/article/info:doi/10.1371/journal.pone.0124145#pone.0124145.ref024\" target=\"_blank\">24</a>] and II (Wanninkhof pers. comm) cruises in 2007 and 2012. (C) Georges Bank and (D) Mid-Atlantic deep pCO<sub>2</sub> from the box model (solid) and the global CESM model (dashed)[<a href=\"http://www.plosone.org/article/info:doi/10.1371/journal.pone.0124145#pone.0124145.ref074\" target=\"_blank\">74</a>].</p>", "links"=>[], "tags"=>["iam", "sea scallop fishery management", "seawater carbonate chemistry", "sea scallop harvests", "CO 2 emissions", "Integrated Assessment Model", "RCP 8.5 CO 2 emissions", "ocean acidification", "scallop population dynamics", "Placopecten magellanicus", "sea scallop fishery", "U.S", "Atlantic sea scallop", "ocean biogeochemical change", "ocean warming increases growth", "United States Sea Scallop", "resource management deliberations", "model"], "article_id"=>1406214, "categories"=>["Biological Sciences", "Ecology"], "users"=>["Sarah R. Cooley", "Jennie E. Rheuban", "Deborah R. Hart", "Victoria Luu", "David M. Glover", "Jonathan A. Hare", "Scott C. Doney"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0124145.g009", "stats"=>{"downloads"=>0, "page_views"=>20, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_An_Integrated_Assessment_Model_for_Helping_the_United_States_Sea_Scallop_Placopecten_magellanicus_Fig_9_Fishery_Plan_Ahead_for_Ocean_Acidification_and_Warming_/1406214", "title"=>"An Integrated Assessment Model for Helping the United States Sea Scallop (<i>Placopecten magellanicus - Fig 9 </i>) Fishery Plan Ahead for Ocean Acidification and Warming", "pos_in_sequence"=>0, "defined_type"=>1, "published_date"=>"2015-05-06 03:28:21"}
  • {"files"=>["https://ndownloader.figshare.com/files/2056578"], "description"=>"<p>Category represents range of meat count/lb. Actual data reported in [<a href=\"http://www.plosone.org/article/info:doi/10.1371/journal.pone.0124145#pone.0124145.ref052\" target=\"_blank\">52</a>](may not add up to 100). Note actual 2012 from months 1–3. Data from year 2000 are model initial conditions.</p>", "links"=>[], "tags"=>["iam", "sea scallop fishery management", "seawater carbonate chemistry", "sea scallop harvests", "CO 2 emissions", "Integrated Assessment Model", "RCP 8.5 CO 2 emissions", "ocean acidification", "scallop population dynamics", "Placopecten magellanicus", "sea scallop fishery", "U.S", "Atlantic sea scallop", "ocean biogeochemical change", "ocean warming increases growth", "United States Sea Scallop", "resource management deliberations", "model"], "article_id"=>1406211, "categories"=>["Biological Sciences", "Ecology"], "users"=>["Sarah R. Cooley", "Jennie E. Rheuban", "Deborah R. Hart", "Victoria Luu", "David M. Glover", "Jonathan A. Hare", "Scott C. Doney"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0124145.g006", "stats"=>{"downloads"=>2, "page_views"=>15, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_A_Actual_data_from_NMFS_may_not_add_up_to_100_and_B_modeled_scallop_landings_by_category_/1406211", "title"=>"(A) Actual data from NMFS (may not add up to 100%) and (B) modeled scallop landings by category.", "pos_in_sequence"=>0, "defined_type"=>1, "published_date"=>"2015-05-06 03:28:21"}
  • {"files"=>["https://ndownloader.figshare.com/files/2056577"], "description"=>"<p>Data from year 2000 are model initial conditions.</p>", "links"=>[], "tags"=>["iam", "sea scallop fishery management", "seawater carbonate chemistry", "sea scallop harvests", "CO 2 emissions", "Integrated Assessment Model", "RCP 8.5 CO 2 emissions", "ocean acidification", "scallop population dynamics", "Placopecten magellanicus", "sea scallop fishery", "U.S", "Atlantic sea scallop", "ocean biogeochemical change", "ocean warming increases growth", "United States Sea Scallop", "resource management deliberations", "model"], "article_id"=>1406210, "categories"=>["Biological Sciences", "Ecology"], "users"=>["Sarah R. Cooley", "Jennie E. Rheuban", "Deborah R. Hart", "Victoria Luu", "David M. Glover", "Jonathan A. Hare", "Scott C. Doney"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0124145.g005", "stats"=>{"downloads"=>1, "page_views"=>4, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Actual_NEFSC_2010_CASA_estimated_July_1_and_modeled_whole_stock_A_biomass_and_B_abundance_/1406210", "title"=>"Actual (NEFSC 2010, CASA estimated July 1) and modeled whole stock (A) biomass and (B) abundance.", "pos_in_sequence"=>0, "defined_type"=>1, "published_date"=>"2015-05-06 03:28:21"}
  • {"files"=>["https://ndownloader.figshare.com/files/2056594", "https://ndownloader.figshare.com/files/2056595", "https://ndownloader.figshare.com/files/2056596", "https://ndownloader.figshare.com/files/2056597", "https://ndownloader.figshare.com/files/2056598"], "description"=>"<div><p>Ocean acidification, the progressive change in ocean chemistry caused by uptake of atmospheric CO<sub>2</sub>, is likely to affect some marine resources negatively, including shellfish. The Atlantic sea scallop (<i>Placopecten magellanicus</i>) supports one of the most economically important single-species commercial fisheries in the United States. Careful management appears to be the most powerful short-term factor affecting scallop populations, but in the coming decades scallops will be increasingly influenced by global environmental changes such as ocean warming and ocean acidification. In this paper, we describe an integrated assessment model (IAM) that numerically simulates oceanographic, population dynamic, and socioeconomic relationships for the U.S. commercial sea scallop fishery. Our primary goal is to enrich resource management deliberations by offering both short- and long-term insight into the system and generating detailed policy-relevant information about the relative effects of ocean acidification, temperature rise, fishing pressure, and socioeconomic factors on the fishery using a simplified model system. Starting with relationships and data used now for sea scallop fishery management, the model adds socioeconomic decision making based on static economic theory and includes ocean biogeochemical change resulting from CO<sub>2</sub> emissions. The model skillfully reproduces scallop population dynamics, market dynamics, and seawater carbonate chemistry since 2000. It indicates sea scallop harvests could decline substantially by 2050 under RCP 8.5 CO<sub>2</sub> emissions and current harvest rules, assuming that ocean acidification affects <i>P</i>. <i>magellanicus</i> by decreasing recruitment and slowing growth, and that ocean warming increases growth. Future work will explore different economic and management scenarios and test how potential impacts of ocean acidification on other scallop biological parameters may influence the social-ecological system. Future empirical work on the effect of ocean acidification on sea scallops is also needed.</p></div>", "links"=>[], "tags"=>["iam", "sea scallop fishery management", "seawater carbonate chemistry", "sea scallop harvests", "CO 2 emissions", "Integrated Assessment Model", "RCP 8.5 CO 2 emissions", "ocean acidification", "scallop population dynamics", "Placopecten magellanicus", "sea scallop fishery", "U.S", "Atlantic sea scallop", "ocean biogeochemical change", "ocean warming increases growth", "United States Sea Scallop", "resource management deliberations", "model"], "article_id"=>1406224, "categories"=>["Biological Sciences", "Ecology"], "users"=>["Sarah R. Cooley", "Jennie E. Rheuban", "Deborah R. Hart", "Victoria Luu", "David M. Glover", "Jonathan A. Hare", "Scott C. Doney"], "doi"=>["https://dx.doi.org/10.1371/journal.pone.0124145.s001", "https://dx.doi.org/10.1371/journal.pone.0124145.s002", "https://dx.doi.org/10.1371/journal.pone.0124145.s003", "https://dx.doi.org/10.1371/journal.pone.0124145.s004", "https://dx.doi.org/10.1371/journal.pone.0124145.s005"], "stats"=>{"downloads"=>11, "page_views"=>9, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/An_Integrated_Assessment_Model_for_Helping_the_United_States_Sea_Scallop_Placopecten_magellanicus_Fishery_Plan_Ahead_for_Ocean_Acidification_and_Warming/1406224", "title"=>"An Integrated Assessment Model for Helping the United States Sea Scallop (<i>Placopecten magellanicus</i>) Fishery Plan Ahead for Ocean Acidification and Warming", "pos_in_sequence"=>0, "defined_type"=>4, "published_date"=>"2015-05-06 03:28:21"}
  • {"files"=>["https://ndownloader.figshare.com/files/2056586"], "description"=>"<p>All dollars reported in 2011 USD.</p><p>Initial conditions for the socioeconomic and scallop submodels for year 2000.</p>", "links"=>[], "tags"=>["iam", "sea scallop fishery management", "seawater carbonate chemistry", "sea scallop harvests", "CO 2 emissions", "Integrated Assessment Model", "RCP 8.5 CO 2 emissions", "ocean acidification", "scallop population dynamics", "Placopecten magellanicus", "sea scallop fishery", "U.S", "Atlantic sea scallop", "ocean biogeochemical change", "ocean warming increases growth", "United States Sea Scallop", "resource management deliberations", "model"], "article_id"=>1406219, "categories"=>["Biological Sciences", "Ecology"], "users"=>["Sarah R. Cooley", "Jennie E. Rheuban", "Deborah R. Hart", "Victoria Luu", "David M. Glover", "Jonathan A. Hare", "Scott C. Doney"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0124145.t005", "stats"=>{"downloads"=>1, "page_views"=>17, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Initial_conditions_for_the_socioeconomic_and_scallop_submodels_for_year_2000_/1406219", "title"=>"Initial conditions for the socioeconomic and scallop submodels for year 2000.", "pos_in_sequence"=>0, "defined_type"=>3, "published_date"=>"2015-05-06 03:28:21"}
  • {"files"=>["https://ndownloader.figshare.com/files/2056585"], "description"=>"<p>Parameters and quantities in the socioeconomic submodel.</p>", "links"=>[], "tags"=>["iam", "sea scallop fishery management", "seawater carbonate chemistry", "sea scallop harvests", "CO 2 emissions", "Integrated Assessment Model", "RCP 8.5 CO 2 emissions", "ocean acidification", "scallop population dynamics", "Placopecten magellanicus", "sea scallop fishery", "U.S", "Atlantic sea scallop", "ocean biogeochemical change", "ocean warming increases growth", "United States Sea Scallop", "resource management deliberations", "model"], "article_id"=>1406218, "categories"=>["Biological Sciences", "Ecology"], "users"=>["Sarah R. Cooley", "Jennie E. Rheuban", "Deborah R. Hart", "Victoria Luu", "David M. Glover", "Jonathan A. Hare", "Scott C. Doney"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0124145.t003", "stats"=>{"downloads"=>0, "page_views"=>15, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Parameters_and_quantities_in_the_socioeconomic_submodel_/1406218", "title"=>"Parameters and quantities in the socioeconomic submodel.", "pos_in_sequence"=>0, "defined_type"=>3, "published_date"=>"2015-05-06 03:28:21"}
  • {"files"=>["https://ndownloader.figshare.com/files/2056580"], "description"=>"<p>Surface conditions are given in red and bottom conditions are given in blue. Data from NEFSC Oceanography branch.</p>", "links"=>[], "tags"=>["iam", "sea scallop fishery management", "seawater carbonate chemistry", "sea scallop harvests", "CO 2 emissions", "Integrated Assessment Model", "RCP 8.5 CO 2 emissions", "ocean acidification", "scallop population dynamics", "Placopecten magellanicus", "sea scallop fishery", "U.S", "Atlantic sea scallop", "ocean biogeochemical change", "ocean warming increases growth", "United States Sea Scallop", "resource management deliberations", "model"], "article_id"=>1406213, "categories"=>["Biological Sciences", "Ecology"], "users"=>["Sarah R. Cooley", "Jennie E. Rheuban", "Deborah R. Hart", "Victoria Luu", "David M. Glover", "Jonathan A. Hare", "Scott C. Doney"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0124145.g008", "stats"=>{"downloads"=>3, "page_views"=>12, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Salinity_salinity_residuals_temperature_and_temperature_residuals_from_the_two_box_models_solid_calibrated_to_data_collected_during_bimonthly_oceanographic_cruises_dashed_within_a_1_176_x_1_176_area_representative_of_conditions_on_A_8212_D_Georges_Bank_a/1406213", "title"=>"Salinity, salinity residuals, temperature, and temperature residuals from the two box models (solid) calibrated to data collected during bimonthly oceanographic cruises (dashed) within a 1° x 1° area representative of conditions on (A—D) Georges Bank and (E—H) in the Mid-Atlantic.", "pos_in_sequence"=>0, "defined_type"=>1, "published_date"=>"2015-05-06 03:28:21"}
  • {"files"=>["https://ndownloader.figshare.com/files/2056579"], "description"=>"<p>Data from year 2000 are model initial conditions.</p>", "links"=>[], "tags"=>["iam", "sea scallop fishery management", "seawater carbonate chemistry", "sea scallop harvests", "CO 2 emissions", "Integrated Assessment Model", "RCP 8.5 CO 2 emissions", "ocean acidification", "scallop population dynamics", "Placopecten magellanicus", "sea scallop fishery", "U.S", "Atlantic sea scallop", "ocean biogeochemical change", "ocean warming increases growth", "United States Sea Scallop", "resource management deliberations", "model"], "article_id"=>1406212, "categories"=>["Biological Sciences", "Ecology"], "users"=>["Sarah R. Cooley", "Jennie E. Rheuban", "Deborah R. Hart", "Victoria Luu", "David M. Glover", "Jonathan A. Hare", "Scott C. Doney"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0124145.g007", "stats"=>{"downloads"=>0, "page_views"=>10, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Actual_NMFS_commercial_landings_accessed_Jan_28_2014_and_modeled_ex_vessel_A_revenue_and_B_landings_/1406212", "title"=>"Actual (NMFS commercial landings accessed Jan. 28, 2014) and modeled ex-vessel (A) revenue and (B) landings.", "pos_in_sequence"=>0, "defined_type"=>1, "published_date"=>"2015-05-06 03:28:21"}
  • {"files"=>["https://ndownloader.figshare.com/files/2056576"], "description"=>"<p>A) Actual and (B) modeled relative scallop shell height distribution from Georges Bank based on number of individuals in each 5mm size class. Data from D. Hart, from NMFS scallop surveys. Data from year 2000 are model initial conditions.</p>", "links"=>[], "tags"=>["iam", "sea scallop fishery management", "seawater carbonate chemistry", "sea scallop harvests", "CO 2 emissions", "Integrated Assessment Model", "RCP 8.5 CO 2 emissions", "ocean acidification", "scallop population dynamics", "Placopecten magellanicus", "sea scallop fishery", "U.S", "Atlantic sea scallop", "ocean biogeochemical change", "ocean warming increases growth", "United States Sea Scallop", "resource management deliberations", "model"], "article_id"=>1406209, "categories"=>["Biological Sciences", "Ecology"], "users"=>["Sarah R. Cooley", "Jennie E. Rheuban", "Deborah R. Hart", "Victoria Luu", "David M. Glover", "Jonathan A. Hare", "Scott C. Doney"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0124145.g004", "stats"=>{"downloads"=>1, "page_views"=>15, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_An_Integrated_Assessment_Model_for_Helping_the_United_States_Sea_Scallop_Placopecten_magellanicus_Fig_4_Fishery_Plan_Ahead_for_Ocean_Acidification_and_Warming_/1406209", "title"=>"An Integrated Assessment Model for Helping the United States Sea Scallop (<i>Placopecten magellanicus - Fig 4 </i>) Fishery Plan Ahead for Ocean Acidification and Warming", "pos_in_sequence"=>0, "defined_type"=>1, "published_date"=>"2015-05-06 03:28:21"}
  • {"files"=>["https://ndownloader.figshare.com/files/2056574"], "description"=>"<p>Biogeochemical submodel components are orange, scallop submodel components are blue, and socioeconomic submodel components are green.</p>", "links"=>[], "tags"=>["iam", "sea scallop fishery management", "seawater carbonate chemistry", "sea scallop harvests", "CO 2 emissions", "Integrated Assessment Model", "RCP 8.5 CO 2 emissions", "ocean acidification", "scallop population dynamics", "Placopecten magellanicus", "sea scallop fishery", "U.S", "Atlantic sea scallop", "ocean biogeochemical change", "ocean warming increases growth", "United States Sea Scallop", "resource management deliberations", "model"], "article_id"=>1406207, "categories"=>["Biological Sciences", "Ecology"], "users"=>["Sarah R. Cooley", "Jennie E. Rheuban", "Deborah R. Hart", "Victoria Luu", "David M. Glover", "Jonathan A. Hare", "Scott C. Doney"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0124145.g002", "stats"=>{"downloads"=>0, "page_views"=>2, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Schematic_of_IAM_/1406207", "title"=>"Schematic of IAM.", "pos_in_sequence"=>0, "defined_type"=>1, "published_date"=>"2015-05-06 03:28:21"}

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  • {"unique-ip"=>"6", "full-text"=>"6", "pdf"=>"0", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"0", "supp-data"=>"0", "cited-by"=>"0", "year"=>"2019", "month"=>"12"}

Relative Metric

{"start_date"=>"2015-01-01T00:00:00Z", "end_date"=>"2015-12-31T00:00:00Z", "subject_areas"=>[]}
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