Data for Close et al. Ecosystems Manuscript 2020: Biogeography of macrophyte elemental composition: spatio-temporal modification of species-level traits

The elemental composition of primary producers represents a potentially important pathway for linking ecosystem scale, climate-driven changes in nutrient supply to ecological processes at the population and community scales. However, such cross-scale linkages may also be dampened by conservation of...

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Bibliographic Details
Main Authors: Sarah Close, Sally Hacker, Bruce Menge, Francis Chan, Karina Nielsen
Format: Dataset
Language:unknown
Published: PISCO MN
Subjects:
C:N ratio
macrophytes
California Current Large Marine Ecosystem
coastal upwelling
El Nino-Southern Oscillation
Pacific Decadal Oscillation
the fucoid Fucus distichus subsp. evanescens
the red alga Mazzaella splendens
the surfgrass Phyllospadix scouleri
the kelp Hedophyllum sessile
Pacific
Ocean acidification
Online Access:https://doi.org/10.6085/AA/publication_data.80.2
id dataone:doi:10.6085/AA/publication_data.80.2
record_format openpolar
spelling dataone:doi:10.6085/AA/publication_data.80.2 2024-10-03T18:46:23+00:00 Data for Close et al. Ecosystems Manuscript 2020: Biogeography of macrophyte elemental composition: spatio-temporal modification of species-level traits Sarah Close Sally Hacker Bruce Menge Francis Chan Karina Nielsen Oregon and California Coast ENVELOPE(-124.059,-123.793,44.837,39.604) BEGINDATE: 2000-01-01T00:00:00Z ENDDATE: 2010-01-01T00:00:00Z 2020-01-14T23:12:22.84Z https://doi.org/10.6085/AA/publication_data.80.2 unknown PISCO MN C:N ratio macrophytes California Current Large Marine Ecosystem coastal upwelling El Nino-Southern Oscillation Pacific Decadal Oscillation the fucoid Fucus distichus subsp. evanescens the red alga Mazzaella splendens the surfgrass Phyllospadix scouleri the kelp Hedophyllum sessile Dataset dataone:urn:node:PISCO https://doi.org/10.6085/AA/publication_data.80.2 2024-10-03T18:15:59Z The elemental composition of primary producers represents a potentially important pathway for linking ecosystem scale, climate-driven changes in nutrient supply to ecological processes at the population and community scales. However, such cross-scale linkages may also be dampened by conservation of species-specific differences in tissue stoichiometry. We investigated biogeographic patterns of elemental composition (%N, %C, and C:N ratio) of four ecologically dominant and functionally diverse marine intertidal macrophyte species (the brown algae Fucus distichus and Hedophyllum sessile, the red alga Mazzaella splendens, and the surfgrass Phyllospadix scouleri) along 900 km of coastline of the California Current System over a 10 year period. We used a nested hierarchical design to identify the dominant spatial and temporal scales of elemental composition variability and to test the sensitivity of macrophyte stoichiometry to changing ocean conditions in upwelling, the El Niño-Southern Oscillation (ENSO), the North Pacific Gyre Oscillation (NPGO), and the Pacific Decadal Oscillation (PDO). Elemental composition was highly conserved at the species level but was also sensitive to the environment, displaying marked species-dependent responses to spatial and temporal variation in ocean conditions. Moreover, the effects of local and seasonal processes were strong and with conserved species-specific differences, likely limited coherent cross-species sensitivity to climate variability from ENSO, NPGO and PDO. Unanticipated long-term steady increases in %C and bimodal increases in %N in brown algae and similar decreases in elemental composition of the red alga generated trimodal changes in C:N for these species. These changes may reflect responses of macrophyte communities to continuing changes in carbonate chemistry from ocean acidification. Dataset Ocean acidification PISCO MN (via DataONE) Pacific ENVELOPE(-124.059,-123.793,44.837,39.604)
institution Open Polar
collection PISCO MN (via DataONE)
op_collection_id dataone:urn:node:PISCO
language unknown
topic C:N ratio
macrophytes
California Current Large Marine Ecosystem
coastal upwelling
El Nino-Southern Oscillation
Pacific Decadal Oscillation
the fucoid Fucus distichus subsp. evanescens
the red alga Mazzaella splendens
the surfgrass Phyllospadix scouleri
the kelp Hedophyllum sessile
spellingShingle C:N ratio
macrophytes
California Current Large Marine Ecosystem
coastal upwelling
El Nino-Southern Oscillation
Pacific Decadal Oscillation
the fucoid Fucus distichus subsp. evanescens
the red alga Mazzaella splendens
the surfgrass Phyllospadix scouleri
the kelp Hedophyllum sessile
Sarah Close
Sally Hacker
Bruce Menge
Francis Chan
Karina Nielsen
Data for Close et al. Ecosystems Manuscript 2020: Biogeography of macrophyte elemental composition: spatio-temporal modification of species-level traits
topic_facet C:N ratio
macrophytes
California Current Large Marine Ecosystem
coastal upwelling
El Nino-Southern Oscillation
Pacific Decadal Oscillation
the fucoid Fucus distichus subsp. evanescens
the red alga Mazzaella splendens
the surfgrass Phyllospadix scouleri
the kelp Hedophyllum sessile
description The elemental composition of primary producers represents a potentially important pathway for linking ecosystem scale, climate-driven changes in nutrient supply to ecological processes at the population and community scales. However, such cross-scale linkages may also be dampened by conservation of species-specific differences in tissue stoichiometry. We investigated biogeographic patterns of elemental composition (%N, %C, and C:N ratio) of four ecologically dominant and functionally diverse marine intertidal macrophyte species (the brown algae Fucus distichus and Hedophyllum sessile, the red alga Mazzaella splendens, and the surfgrass Phyllospadix scouleri) along 900 km of coastline of the California Current System over a 10 year period. We used a nested hierarchical design to identify the dominant spatial and temporal scales of elemental composition variability and to test the sensitivity of macrophyte stoichiometry to changing ocean conditions in upwelling, the El Niño-Southern Oscillation (ENSO), the North Pacific Gyre Oscillation (NPGO), and the Pacific Decadal Oscillation (PDO). Elemental composition was highly conserved at the species level but was also sensitive to the environment, displaying marked species-dependent responses to spatial and temporal variation in ocean conditions. Moreover, the effects of local and seasonal processes were strong and with conserved species-specific differences, likely limited coherent cross-species sensitivity to climate variability from ENSO, NPGO and PDO. Unanticipated long-term steady increases in %C and bimodal increases in %N in brown algae and similar decreases in elemental composition of the red alga generated trimodal changes in C:N for these species. These changes may reflect responses of macrophyte communities to continuing changes in carbonate chemistry from ocean acidification.
format Dataset
author Sarah Close
Sally Hacker
Bruce Menge
Francis Chan
Karina Nielsen
author_facet Sarah Close
Sally Hacker
Bruce Menge
Francis Chan
Karina Nielsen
author_sort Sarah Close
title Data for Close et al. Ecosystems Manuscript 2020: Biogeography of macrophyte elemental composition: spatio-temporal modification of species-level traits
title_short Data for Close et al. Ecosystems Manuscript 2020: Biogeography of macrophyte elemental composition: spatio-temporal modification of species-level traits
title_full Data for Close et al. Ecosystems Manuscript 2020: Biogeography of macrophyte elemental composition: spatio-temporal modification of species-level traits
title_fullStr Data for Close et al. Ecosystems Manuscript 2020: Biogeography of macrophyte elemental composition: spatio-temporal modification of species-level traits
title_full_unstemmed Data for Close et al. Ecosystems Manuscript 2020: Biogeography of macrophyte elemental composition: spatio-temporal modification of species-level traits
title_sort data for close et al. ecosystems manuscript 2020: biogeography of macrophyte elemental composition: spatio-temporal modification of species-level traits
publisher PISCO MN
publishDate
url https://doi.org/10.6085/AA/publication_data.80.2
op_coverage Oregon and California Coast
ENVELOPE(-124.059,-123.793,44.837,39.604)
BEGINDATE: 2000-01-01T00:00:00Z ENDDATE: 2010-01-01T00:00:00Z
long_lat ENVELOPE(-124.059,-123.793,44.837,39.604)
geographic Pacific
geographic_facet Pacific
genre Ocean acidification
genre_facet Ocean acidification
op_doi https://doi.org/10.6085/AA/publication_data.80.2
_version_ 1811927813737938944

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