Evidence of Season-Dependency in Vegetation Effects on Macrofauna in Temperate Seagrass Meadows (Baltic Sea)
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Figshare

  • {"files"=>["https://ndownloader.figshare.com/files/1582612"], "description"=>"<p>Diss/SD – average contribution to overall dissimilarity divided by standard deviation, Cont% - percentage contribution to total dissimilarity. Mean densities [ind. 0.1 m<sup>−2</sup>] in groups of samples defined by bottom type (bare, veg) and station (RM, JAS) are presented. Only species of cont% equal or higher than 4 are listed.</p>", "links"=>[], "tags"=>["ecology", "Ecological metrics", "Biomass (ecology)", "biodiversity", "Coastal ecology", "Community Ecology", "Marine ecology", "Marine biology", "marine and aquatic sciences", "Aquatic environments", "Marine environments", "Bodies of water", "oceans", "macrofauna", "indicated", "simper", "double-root", "transformed"], "article_id"=>1095520, "categories"=>["Biological Sciences", "Ecology"], "users"=>["Maria Włodarska-Kowalczuk", "Emilia Jankowska", "Lech Kotwicki", "Piotr Balazy"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0100788.t005", "stats"=>{"downloads"=>2, "page_views"=>11, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Species_responsible_for_discrimination_of_macrofauna_between_two_bottom_types_as_indicated_by_the_SIMPER_procedure_based_on_double_root_transformed_data_/1095520", "title"=>"Species responsible for discrimination of macrofauna between two bottom types, as indicated by the SIMPER procedure based on double-root transformed data.", "pos_in_sequence"=>0, "defined_type"=>3, "published_date"=>"2014-07-07 02:58:29"}
  • {"files"=>["https://ndownloader.figshare.com/files/1582613"], "description"=>"<p>Diss/SD - average contribution to overall dissimilarity divided by standard deviation, Cont% - percentage contribution to total dissimilarity. Mean frequencies of occurrence [%] in groups of samples defined by bottom type (bare, veg) and station (JAS, RM) are presented. Only species of cont% equal or higher than 4 are listed.</p>", "links"=>[], "tags"=>["ecology", "Ecological metrics", "Biomass (ecology)", "biodiversity", "Coastal ecology", "Community Ecology", "Marine ecology", "Marine biology", "marine and aquatic sciences", "Aquatic environments", "Marine environments", "Bodies of water", "oceans", "macrofauna", "indicated", "simper"], "article_id"=>1095521, "categories"=>["Biological Sciences", "Ecology"], "users"=>["Maria Włodarska-Kowalczuk", "Emilia Jankowska", "Lech Kotwicki", "Piotr Balazy"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0100788.t006", "stats"=>{"downloads"=>11, "page_views"=>26, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Species_responsible_for_discrimination_of_macrofauna_between_two_bottom_types_as_indicated_by_the_SIMPER_procedure_based_on_presence_absence_data_/1095521", "title"=>"Species responsible for discrimination of macrofauna between two bottom types, as indicated by the SIMPER procedure, based on presence/absence data.", "pos_in_sequence"=>0, "defined_type"=>3, "published_date"=>"2014-07-07 02:58:29"}
  • {"files"=>["https://ndownloader.figshare.com/files/1582616"], "description"=>"<div><p>Seagrasses and associated macrophytes are important components of coastal systems as ecosystem engineers, habitat formers, and providers of food and shelter for other organisms. The positive impacts of seagrass vegetation on zoobenthic abundance and diversity (as compared to bare sands) are well documented, but only in surveys performed in summer, which is the season of maximum canopy development. Here we present the results of the first study of the relationship between the seasonal variability of seagrass vegetation and persistence and magnitude of contrasts in faunal communities between vegetated and bare sediments. The composition, abundance, biomass, and diversity of macrozoobenthos in both habitats were compared five times throughout the year in temperate eelgrass meadows in the southern Baltic Sea. Significant positive effects of macrophyte cover on invertebrate density and biomass were recorded only in June, July, and October when the seagrass canopy was relatively well developed. The effects of vegetation cover on faunal species richness, diversity, and composition persisted throughout the year, but the magnitude of these effects varied seasonally and followed changes in macrophyte biomass. The strongest effects were observed in July and coincided with maximums in seagrass biomass and the diversity and biomass of other macrophytes. These observations indicate that in temperate, clearly seasonal systems the assessment of macrophyte impact cannot be based solely on observations performed in just one season, especially when that season is the one in which macrophyte growth is at its maximum. The widely held belief that macrophyte cover strongly influences benthic fauna in marine coastal habitats, which is based on summer surveys, should be revisited and complemented with information obtained in other seasons.</p></div>", "links"=>[], "tags"=>["ecology", "Ecological metrics", "Biomass (ecology)", "biodiversity", "Coastal ecology", "Community Ecology", "Marine ecology", "Marine biology", "marine and aquatic sciences", "Aquatic environments", "Marine environments", "Bodies of water", "oceans", "season-dependency", "vegetation", "macrofauna", "temperate", "seagrass", "meadows"], "article_id"=>1095524, "categories"=>["Biological Sciences", "Ecology"], "users"=>["Maria Włodarska-Kowalczuk", "Emilia Jankowska", "Lech Kotwicki", "Piotr Balazy"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0100788", "stats"=>{"downloads"=>0, "page_views"=>3, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Evidence_of_Season_Dependency_in_Vegetation_Effects_on_Macrofauna_in_Temperate_Seagrass_Meadows_Baltic_Sea_/1095524", "title"=>"Evidence of Season-Dependency in Vegetation Effects on Macrofauna in Temperate Seagrass Meadows (Baltic Sea)", "pos_in_sequence"=>0, "defined_type"=>3, "published_date"=>"2014-07-07 02:58:29"}
  • {"files"=>["https://ndownloader.figshare.com/files/1582590"], "description"=>"<p>The map is based on Landsat picture taken in 2000, publicized by NASA and located in public domain of Wikipedia (<a href=\"http://en.wikipedia.org/wiki/File:Mierzeja_Helska.jpg\" target=\"_blank\">http://en.wikipedia.org/wiki/File:Mierzeja_Helska.jpg</a>).</p>", "links"=>[], "tags"=>["ecology", "Ecological metrics", "Biomass (ecology)", "biodiversity", "Coastal ecology", "Community Ecology", "Marine ecology", "Marine biology", "marine and aquatic sciences", "Aquatic environments", "Marine environments", "Bodies of water", "oceans", "sampling", "sites", "puck"], "article_id"=>1095498, "categories"=>["Biological Sciences", "Ecology"], "users"=>["Maria Włodarska-Kowalczuk", "Emilia Jankowska", "Lech Kotwicki", "Piotr Balazy"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0100788.g001", "stats"=>{"downloads"=>0, "page_views"=>4, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Location_of_sampling_sites_in_the_Puck_Bay_/1095498", "title"=>"Location of sampling sites in the Puck Bay.", "pos_in_sequence"=>0, "defined_type"=>1, "published_date"=>"2014-07-07 02:58:29"}
  • {"files"=>["https://ndownloader.figshare.com/files/1582593"], "description"=>"<p>Seagrass aboveground and underground biomass and other macrophyte biomass [g dw m<sup>−2</sup>] recorded in 5 months (OCT' - October 2010, MAR - March 2011, JUN - June 2011, JUL - July 2011, OCT - October 2011) at two sampling stations (JAS - gray bars, RM - white bars). Mean and 0.95 CI values are presented. Based on data published by Jankowska et al. <a href=\"http://www.plosone.org/article/info:doi/10.1371/journal.pone.0100788#pone.0100788-VanLent1\" target=\"_blank\">[20]</a>.</p>", "links"=>[], "tags"=>["ecology", "Ecological metrics", "Biomass (ecology)", "biodiversity", "Coastal ecology", "Community Ecology", "Marine ecology", "Marine biology", "marine and aquatic sciences", "Aquatic environments", "Marine environments", "Bodies of water", "oceans", "variability", "macrophyte", "vegetation"], "article_id"=>1095501, "categories"=>["Biological Sciences", "Ecology"], "users"=>["Maria Włodarska-Kowalczuk", "Emilia Jankowska", "Lech Kotwicki", "Piotr Balazy"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0100788.g002", "stats"=>{"downloads"=>0, "page_views"=>3, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Seasonal_variability_in_macrophyte_vegetation_characteristics_/1095501", "title"=>"Seasonal variability in macrophyte vegetation characteristics.", "pos_in_sequence"=>0, "defined_type"=>1, "published_date"=>"2014-07-07 02:58:29"}
  • {"files"=>["https://ndownloader.figshare.com/files/1582598"], "description"=>"<p>Density [1000 ind. 0.1 m<sup>−2</sup>], biomass [g 0.1 m<sup>−2</sup>], species richness (number of species per sample), diversity (Shannon-Wiener index), and evenness (Pielou index) recorded in 5 months (OCT'- October 2010, MAR - March 2011, JUN - June 2011, JUL - July 2011, OCT - October 2011) at two stations (JAS - white background, RM - gray background) and two bottom types (vegetated, unvegetated). Mean and 0.95 CI values are presented.</p>", "links"=>[], "tags"=>["ecology", "Ecological metrics", "Biomass (ecology)", "biodiversity", "Coastal ecology", "Community Ecology", "Marine ecology", "Marine biology", "marine and aquatic sciences", "Aquatic environments", "Marine environments", "Bodies of water", "oceans", "variability", "macrozoobenthic"], "article_id"=>1095506, "categories"=>["Biological Sciences", "Ecology"], "users"=>["Maria Włodarska-Kowalczuk", "Emilia Jankowska", "Lech Kotwicki", "Piotr Balazy"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0100788.g003", "stats"=>{"downloads"=>0, "page_views"=>2, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Seasonal_variability_in_macrozoobenthic_community_characteristics_/1095506", "title"=>"Seasonal variability in macrozoobenthic community characteristics.", "pos_in_sequence"=>0, "defined_type"=>1, "published_date"=>"2014-07-07 02:58:29"}
  • {"files"=>["https://ndownloader.figshare.com/files/1582600"], "description"=>"<p>Veg/bare ratio - ratio of mean recorded on vegetated bottom to mean on bare sand, for samples collected in 5 months (OCT'- October 2010, MAR - March 2011, JUN - June 2011, JUL - July 2011, OCT - October 2011). Veg/bare ratio presented for density, biomass, number of species per sample (<i>‘S’</i>), Shannon-Wiener index (<i>‘H’</i>), Pielou index (<i>‘J’</i>).</p>", "links"=>[], "tags"=>["ecology", "Ecological metrics", "Biomass (ecology)", "biodiversity", "Coastal ecology", "Community Ecology", "Marine ecology", "Marine biology", "marine and aquatic sciences", "Aquatic environments", "Marine environments", "Bodies of water", "oceans", "macrofauna", "univariate", "types", "plotted", "macrophyte", "biomass", "dw"], "article_id"=>1095508, "categories"=>["Biological Sciences", "Ecology"], "users"=>["Maria Włodarska-Kowalczuk", "Emilia Jankowska", "Lech Kotwicki", "Piotr Balazy"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0100788.g004", "stats"=>{"downloads"=>1, "page_views"=>0, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Magnitude_of_difference_in_macrofauna_univariate_characteristics_between_two_bottom_types_plotted_against_total_macrophyte_biomass_g_dw_m_8722_2_/1095508", "title"=>"Magnitude of difference in macrofauna univariate characteristics between two bottom types plotted against total macrophyte biomass [g dw m<sup>−2</sup>].", "pos_in_sequence"=>0, "defined_type"=>1, "published_date"=>"2014-07-07 02:58:29"}
  • {"files"=>["https://ndownloader.figshare.com/files/1582601"], "description"=>"<p>Data were double root transformed.</p>", "links"=>[], "tags"=>["ecology", "Ecological metrics", "Biomass (ecology)", "biodiversity", "Coastal ecology", "Community Ecology", "Marine ecology", "Marine biology", "marine and aquatic sciences", "Aquatic environments", "Marine environments", "Bodies of water", "oceans", "bray-curtis", "similarities", "abundances", "computed", "groups", "samples"], "article_id"=>1095509, "categories"=>["Biological Sciences", "Ecology"], "users"=>["Maria Włodarska-Kowalczuk", "Emilia Jankowska", "Lech Kotwicki", "Piotr Balazy"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0100788.g005", "stats"=>{"downloads"=>0, "page_views"=>23, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_nMDS_plots_of_Bray_Curtis_similarities_of_average_species_abundances_computed_for_groups_of_samples_representing_months_stations_bottom_types_/1095509", "title"=>"nMDS plots of Bray-Curtis similarities of average species abundances computed for groups of samples representing months, stations, bottom types.", "pos_in_sequence"=>0, "defined_type"=>1, "published_date"=>"2014-07-07 02:58:29"}
  • {"files"=>["https://ndownloader.figshare.com/files/1582604"], "description"=>"<p>Data were double root transformed. Symbols represent sites/bottom types (left) and months/bottom types (right).</p>", "links"=>[], "tags"=>["ecology", "Ecological metrics", "Biomass (ecology)", "biodiversity", "Coastal ecology", "Community Ecology", "Marine ecology", "Marine biology", "marine and aquatic sciences", "Aquatic environments", "Marine environments", "Bodies of water", "oceans", "bray-curtis", "similarities", "macrobenthic", "abundances", "samples", "ordination", "discriminating", "groups", "defined", "types", "months"], "article_id"=>1095512, "categories"=>["Biological Sciences", "Ecology"], "users"=>["Maria Włodarska-Kowalczuk", "Emilia Jankowska", "Lech Kotwicki", "Piotr Balazy"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0100788.g006", "stats"=>{"downloads"=>3, "page_views"=>93, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_PCO_of_Bray_Curtis_similarities_of_macrobenthic_species_abundances_in_samples_left_and_CAP_ordination_best_discriminating_groups_of_samples_defined_by_bottom_types_and_months_right_/1095512", "title"=>"PCO of Bray-Curtis similarities of macrobenthic species abundances in samples (left) and CAP - ordination best discriminating groups of samples defined by bottom types and months (right).", "pos_in_sequence"=>0, "defined_type"=>1, "published_date"=>"2014-07-07 02:58:29"}
  • {"files"=>["https://ndownloader.figshare.com/files/1582605"], "description"=>"<p>nMDS of Bray-Curtis similarities among centroids for groups of samples collected in different months/bottom types (<i>veg</i> - vegetated bottom, <i>bare</i> - bare sand). Right plot presents Bray-Curtis distances between centroids representing the fauna collected from two bottom types plotted against total macrophyte biomass [g dw m<sup>−2</sup>] in 5 months. Macrobenthic dissimilarity calculated based on: presence/absence data (pr/ab), double root transformed, and untransformed data (nonTr).</p>", "links"=>[], "tags"=>["ecology", "Ecological metrics", "Biomass (ecology)", "biodiversity", "Coastal ecology", "Community Ecology", "Marine ecology", "Marine biology", "marine and aquatic sciences", "Aquatic environments", "Marine environments", "Bodies of water", "oceans", "macrofauna", "types"], "article_id"=>1095513, "categories"=>["Biological Sciences", "Ecology"], "users"=>["Maria Włodarska-Kowalczuk", "Emilia Jankowska", "Lech Kotwicki", "Piotr Balazy"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0100788.g007", "stats"=>{"downloads"=>0, "page_views"=>0, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Magnitude_of_difference_in_macrofauna_community_composition_between_two_bottom_types_in_different_seasons_/1095513", "title"=>"Magnitude of difference in macrofauna community composition between two bottom types in different seasons.", "pos_in_sequence"=>0, "defined_type"=>1, "published_date"=>"2014-07-07 02:58:29"}
  • {"files"=>["https://ndownloader.figshare.com/files/1582606"], "description"=>"<p>Results of tests for density, biomass, number of taxa per sample (<i>S</i>), Shannon-Wienner index (<i>H</i>), and Pielou index (<i>J</i>) are presented. Effects of bottom type and MtxBt interaction printed in bold. PsF - PERMANOVA pseudoF, CV - component of variation. Significant effects: * P<0.05, ** P<0.001. Bt (MtxBt) - significant effects in pairwise tests for differences between vegetated and unvegetated bottoms performed separately for five months.</p>", "links"=>[], "tags"=>["ecology", "Ecological metrics", "Biomass (ecology)", "biodiversity", "Coastal ecology", "Community Ecology", "Marine ecology", "Marine biology", "marine and aquatic sciences", "Aquatic environments", "Marine environments", "Bodies of water", "oceans", "permanova", "differences", "macrofauna", "univariate", "stations", "months", "types"], "article_id"=>1095514, "categories"=>["Biological Sciences", "Ecology"], "users"=>["Maria Włodarska-Kowalczuk", "Emilia Jankowska", "Lech Kotwicki", "Piotr Balazy"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0100788.t001", "stats"=>{"downloads"=>5, "page_views"=>40, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Three_way_PERMANOVA_tests_for_differences_in_macrofauna_univariate_characteristics_among_stations_St_months_Mt_and_bottom_types_Bt_/1095514", "title"=>"Three-way PERMANOVA tests for differences in macrofauna univariate characteristics among stations (St), months (Mt) and bottom types (Bt).", "pos_in_sequence"=>0, "defined_type"=>3, "published_date"=>"2014-07-07 02:58:29"}
  • {"files"=>["https://ndownloader.figshare.com/files/1582607"], "description"=>"<p>Tests performed on Bray-Curtis similarity matrices for: presence/absence data (pr/ab), double root transformed (dbrt), and untransformed data (nonTr). Effects of bottom type and MtxBt interaction printed in bold. PsF - PERMANOVA pseudoF, CV - component of variation. Significant effects: * P<0.05, ** P<0.001. Bt (MtxBt) - significant effects in pairwise tests for differences between vegetated and unvegetated bottoms performed separately for five months.</p>", "links"=>[], "tags"=>["ecology", "Ecological metrics", "Biomass (ecology)", "biodiversity", "Coastal ecology", "Community Ecology", "Marine ecology", "Marine biology", "marine and aquatic sciences", "Aquatic environments", "Marine environments", "Bodies of water", "oceans", "permanova", "differences", "macrobenthic", "stations"], "article_id"=>1095515, "categories"=>["Biological Sciences", "Ecology"], "users"=>["Maria Włodarska-Kowalczuk", "Emilia Jankowska", "Lech Kotwicki", "Piotr Balazy"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0100788.t002", "stats"=>{"downloads"=>10, "page_views"=>153, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Three_way_PERMANOVA_tests_for_differences_in_macrobenthic_community_among_stations_St_month_Mt_and_bottom_type_Bt_/1095515", "title"=>"Three-way PERMANOVA tests for differences in macrobenthic community among stations (St), month (Mt) and bottom type (Bt).", "pos_in_sequence"=>0, "defined_type"=>3, "published_date"=>"2014-07-07 02:58:29"}
  • {"files"=>["https://ndownloader.figshare.com/files/1582609"], "description"=>"<p>Analyses based on double root transformed macrofaunal data of species abundances in samples. Significant effects: * P<0.05; ** P<0.001.</p>", "links"=>[], "tags"=>["ecology", "Ecological metrics", "Biomass (ecology)", "biodiversity", "Coastal ecology", "Community Ecology", "Marine ecology", "Marine biology", "marine and aquatic sciences", "Aquatic environments", "Marine environments", "Bodies of water", "oceans", "distlm", "fitting", "variables", "macrobenthic"], "article_id"=>1095517, "categories"=>["Biological Sciences", "Ecology"], "users"=>["Maria Włodarska-Kowalczuk", "Emilia Jankowska", "Lech Kotwicki", "Piotr Balazy"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0100788.t003", "stats"=>{"downloads"=>4, "page_views"=>26, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Results_of_DISTLM_procedure_for_fitting_environmental_variables_to_macrobenthic_composition_/1095517", "title"=>"Results of DISTLM procedure for fitting environmental variables to macrobenthic composition.", "pos_in_sequence"=>0, "defined_type"=>3, "published_date"=>"2014-07-07 02:58:29"}
  • {"files"=>["https://ndownloader.figshare.com/files/1582611"], "description"=>"<p>Macrofauna analysed in terms of density, biomass, species richness and species composition (based on double root transformed species abundances in samples data). Macrophyte cover biometrics include total macrophyte biomass, algal biomass, algal species richness, seagrass shoot density (seagr. shoot density) and seagrass above ground biomass (seagr. ab. ground biomass). Significant effects: * P<0.05, **P<0.001.</p>", "links"=>[], "tags"=>["ecology", "Ecological metrics", "Biomass (ecology)", "biodiversity", "Coastal ecology", "Community Ecology", "Marine ecology", "Marine biology", "marine and aquatic sciences", "Aquatic environments", "Marine environments", "Bodies of water", "oceans", "distlm", "fitting", "macrophyte", "biometrics", "macrobenthic", "samples", "vegetated"], "article_id"=>1095519, "categories"=>["Biological Sciences", "Ecology"], "users"=>["Maria Włodarska-Kowalczuk", "Emilia Jankowska", "Lech Kotwicki", "Piotr Balazy"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0100788.t004", "stats"=>{"downloads"=>5, "page_views"=>21, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Results_of_DISTLM_procedure_for_fitting_macrophyte_cover_biometrics_to_macrobenthic_community_characteristics_for_samples_collected_in_vegetated_sediments_/1095519", "title"=>"Results of DISTLM procedure for fitting macrophyte cover biometrics to macrobenthic community characteristics for samples collected in vegetated sediments.", "pos_in_sequence"=>0, "defined_type"=>3, "published_date"=>"2014-07-07 02:58:29"}

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Relative Metric

{"start_date"=>"2014-01-01T00:00:00Z", "end_date"=>"2014-12-31T00:00:00Z", "subject_areas"=>[{"subject_area"=>"/Earth sciences", "average_usage"=>[318]}, {"subject_area"=>"/Earth sciences/Marine and aquatic sciences", "average_usage"=>[343]}, {"subject_area"=>"/Ecology and environmental sciences/Ecology", "average_usage"=>[313]}, {"subject_area"=>"/Ecology and environmental sciences/Habitats", "average_usage"=>[348, 516]}]}
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