Assessment of Plankton Size Structure From CMIP6 Earth System Models With a Novel Pelagic Size Structure Database Article Swipe

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Marco Corrales‐Ugalde , Jessica Y. Luo , Charles A. Stock , Mathilde Dugenne , Lars Stemmann , Todd O’Brien ·

YOU? · · 2025 · Open Access · · DOI: https://doi.org/10.1029/2024gb008443

Plankton community structure influences biogeochemical and ecosystem processes, such as sequestration of atmospheric CO 2 , carbon export to the ocean floor, and the productivity of higher trophic levels. One means of analyzing community structure is through the distribution of biovolume across size classes (the size spectrum), since size is a proxy for plankton functional traits. To understand how climate forcing affects plankton communities, we assessed the size spectra in the historical simulations of seven Earth System Models (ESMs) included in the 6th Coupled Model Intercomparison Project and analyzed projected changes under a high emissions scenario (SSP5‐8.5). We compared historical estimates with the Pelagic Size Structure database (PSSdb), a novel size structure dataset from imaging systems. The median slope from models ranged from −1.66 to −1.07, with shallower slopes from this range approximating both the theoretical expectation and PSSdb observations (−1.05), with variations around the median representing differences in the total biovolume distribution across plankton functional groups. Consistent with the observations, most ESMs show steeper slopes and lower biovolume in oligotrophic subtropical gyres compared with productive ocean regions. Historical versus climate change simulations reveal increases in slope and biovolume at high latitudes, associated with greater biomass and productivity, and decreases at lower latitudes, consistent with nutrient limitation from stronger stratification. We emphasize the need for expanded observational data. Despite ESMs not being designed to simulate size, the plankton size spectra from models provide insights on large‐scale ecological and biogeochemical processes, and how climate change could affect these dynamics in the future.

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Type: article
Language: en
Landing Page: https://doi.org/10.1029/2024gb008443
PDF: https://onlinelibrary.wiley.com/doi/pdfdirect/10.1029/2024GB008443
OA Status: hybrid
References: 103
OpenAlex ID: https://openalex.org/W4416814597

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OpenAlex ID: https://openalex.org/W4416814597

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DOI: https://doi.org/10.1029/2024gb008443

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Title: Assessment of Plankton Size Structure From CMIP6 Earth System Models With a Novel Pelagic Size Structure Database

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Type: article

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Language: en

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Publication year: 2025

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Publication date: 2025-11-29

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Authors: Marco Corrales‐Ugalde, Jessica Y. Luo, Charles A. Stock, Mathilde Dugenne, Lars Stemmann, Todd O’Brien

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Landing page: https://doi.org/10.1029/2024gb008443

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PDF URL: https://onlinelibrary.wiley.com/doi/pdfdirect/10.1029/2024GB008443

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OA URL: https://onlinelibrary.wiley.com/doi/pdfdirect/10.1029/2024GB008443

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References (count): 103

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abstract_inverted_index.total	151
abstract_inverted_index.under	92
abstract_inverted_index.(ESMs)	79
abstract_inverted_index.Models	78
abstract_inverted_index.System	77
abstract_inverted_index.across	42, 154
abstract_inverted_index.affect	246
abstract_inverted_index.around	144
abstract_inverted_index.carbon	17
abstract_inverted_index.change	182, 244
abstract_inverted_index.export	18
abstract_inverted_index.floor,	22
abstract_inverted_index.higher	27
abstract_inverted_index.median	118, 146
abstract_inverted_index.models	121, 232
abstract_inverted_index.ranged	122
abstract_inverted_index.reveal	184
abstract_inverted_index.slopes	129, 166
abstract_inverted_index.versus	180
abstract_inverted_index.Coupled	84
abstract_inverted_index.Despite	219
abstract_inverted_index.Pelagic	104
abstract_inverted_index.Project	87
abstract_inverted_index.affects	62
abstract_inverted_index.biomass	196
abstract_inverted_index.changes	91
abstract_inverted_index.classes	44
abstract_inverted_index.climate	60, 181, 243
abstract_inverted_index.dataset	113
abstract_inverted_index.forcing	61
abstract_inverted_index.future.	251
abstract_inverted_index.greater	195
abstract_inverted_index.groups.	157
abstract_inverted_index.imaging	115
abstract_inverted_index.levels.	29
abstract_inverted_index.provide	233
abstract_inverted_index.spectra	69, 230
abstract_inverted_index.steeper	165
abstract_inverted_index.through	37
abstract_inverted_index.traits.	56
abstract_inverted_index.trophic	28
abstract_inverted_index.−1.66	124
abstract_inverted_index.(PSSdb),	108
abstract_inverted_index.Abstract	0
abstract_inverted_index.Plankton	1
abstract_inverted_index.analyzed	89
abstract_inverted_index.assessed	66
abstract_inverted_index.compared	99, 174
abstract_inverted_index.database	107
abstract_inverted_index.designed	223
abstract_inverted_index.dynamics	248
abstract_inverted_index.expanded	216
abstract_inverted_index.included	80
abstract_inverted_index.insights	234
abstract_inverted_index.nutrient	206
abstract_inverted_index.plankton	54, 63, 155, 228
abstract_inverted_index.regions.	178
abstract_inverted_index.scenario	96
abstract_inverted_index.simulate	225
abstract_inverted_index.stronger	209
abstract_inverted_index.systems.	116
abstract_inverted_index.−1.07,	126
abstract_inverted_index.Structure	106
abstract_inverted_index.analyzing	33
abstract_inverted_index.biovolume	41, 152, 169, 189
abstract_inverted_index.community	2, 34
abstract_inverted_index.decreases	200
abstract_inverted_index.ecosystem	7
abstract_inverted_index.emissions	95
abstract_inverted_index.emphasize	212
abstract_inverted_index.estimates	101
abstract_inverted_index.increases	185
abstract_inverted_index.projected	90
abstract_inverted_index.shallower	128
abstract_inverted_index.structure	3, 35, 112
abstract_inverted_index.(−1.05),	141
abstract_inverted_index.Consistent	158
abstract_inverted_index.Historical	179
abstract_inverted_index.associated	193
abstract_inverted_index.consistent	204
abstract_inverted_index.ecological	237
abstract_inverted_index.functional	55, 156
abstract_inverted_index.historical	72, 100
abstract_inverted_index.influences	4
abstract_inverted_index.latitudes,	192, 203
abstract_inverted_index.limitation	207
abstract_inverted_index.processes,	8, 240
abstract_inverted_index.productive	176
abstract_inverted_index.spectrum),	47
abstract_inverted_index.understand	58
abstract_inverted_index.variations	143
abstract_inverted_index.atmospheric	13
abstract_inverted_index.differences	148
abstract_inverted_index.expectation	137
abstract_inverted_index.simulations	73, 183
abstract_inverted_index.subtropical	172
abstract_inverted_index.theoretical	136
abstract_inverted_index.communities,	64
abstract_inverted_index.distribution	39, 153
abstract_inverted_index.observations	140
abstract_inverted_index.oligotrophic	171
abstract_inverted_index.productivity	25
abstract_inverted_index.representing	147
abstract_inverted_index.(SSP5‐8.5).	97
abstract_inverted_index.approximating	133
abstract_inverted_index.large‐scale	236
abstract_inverted_index.observational	217
abstract_inverted_index.observations,	161
abstract_inverted_index.productivity,	198
abstract_inverted_index.sequestration	11
abstract_inverted_index.biogeochemical	5, 239
abstract_inverted_index.Intercomparison	86
abstract_inverted_index.stratification.	210
cited_by_percentile_year
countries_distinct_count	2
institutions_distinct_count	6
citation_normalized_percentile