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author González, Angélica L
Merder, Julian
Andraczek, Karl
Brose, Ulrich
Filipiak, Michał
Harpole, W Stanley
Hillebrand, Helmut
Jackson, Michelle C
Jochum, Malte
Leroux, Shawn J
Nessel, Mark P
Onstein, Renske E
Paseka, Rachel
Perry, George L W
Rugenski, Amanda
Sitters, Judith
Sperfeld, Erik
Striebel, Maren
Zandona, Eugenia
Aymes, Jean-Christophe
Blanckaert, Alice
Bluhm, Sarah L
Doi, Hideyuki
Eisenhauer, Nico
Farjalla, Vinicius F
Hood, James
Kratina, Pavel
Labonne, Jacques
Lovelock, Catherine E
Moody, Eric K
Mozsár, Attila
Nash, Liam
Pollierer, Melanie M
Potapov, Anton
Romero, Gustavo Q
Roussel, Jean-Marc
Scheu, Stefan
Scheunemann, Nicole
Seeber, Julia
Steinwandter, Michael
Susanti, Winda Ika
Tiunov, Alexei
Dézerald, Olivier
author_facet González, Angélica L
Merder, Julian
Andraczek, Karl
Brose, Ulrich
Filipiak, Michał
Harpole, W Stanley
Hillebrand, Helmut
Jackson, Michelle C
Jochum, Malte
Leroux, Shawn J
Nessel, Mark P
Onstein, Renske E
Paseka, Rachel
Perry, George L W
Rugenski, Amanda
Sitters, Judith
Sperfeld, Erik
Striebel, Maren
Zandona, Eugenia
Aymes, Jean-Christophe
Blanckaert, Alice
Bluhm, Sarah L
Doi, Hideyuki
Eisenhauer, Nico
Farjalla, Vinicius F
Hood, James
Kratina, Pavel
Labonne, Jacques
Lovelock, Catherine E
Moody, Eric K
Mozsár, Attila
Nash, Liam
Pollierer, Melanie M
Potapov, Anton
Romero, Gustavo Q
Roussel, Jean-Marc
Scheu, Stefan
Scheunemann, Nicole
Seeber, Julia
Steinwandter, Michael
Susanti, Winda Ika
Tiunov, Alexei
Dézerald, Olivier
González, Angélica L
Merder, Julian
Andraczek, Karl
Brose, Ulrich
Filipiak, Michał
Harpole, W Stanley
Hillebrand, Helmut
Jackson, Michelle C
Jochum, Malte
Leroux, Shawn J
Nessel, Mark P
Onstein, Renske E
Paseka, Rachel
Perry, George L W
Rugenski, Amanda
Sitters, Judith
Sperfeld, Erik
Striebel, Maren
Zandona, Eugenia
Aymes, Jean-Christophe
Blanckaert, Alice
Bluhm, Sarah L
Doi, Hideyuki
Eisenhauer, Nico
Farjalla, Vinicius F
Hood, James
Kratina, Pavel
Labonne, Jacques
Lovelock, Catherine E
Moody, Eric K
Mozsár, Attila
Nash, Liam
Pollierer, Melanie M
Potapov, Anton
Romero, Gustavo Q
Roussel, Jean-Marc
Scheu, Stefan
Scheunemann, Nicole
Seeber, Julia
Steinwandter, Michael
Susanti, Winda Ika
Tiunov, Alexei
Dézerald, Olivier
collection PubMed - marine biology
contents StoichLife: A Global Dataset of Plant and Animal Elemental Content. González, Angélica L Merder, Julian Andraczek, Karl Brose, Ulrich Filipiak, Michał Harpole, W Stanley Hillebrand, Helmut Jackson, Michelle C Jochum, Malte Leroux, Shawn J Nessel, Mark P Onstein, Renske E Paseka, Rachel Perry, George L W Rugenski, Amanda Sitters, Judith Sperfeld, Erik Striebel, Maren Zandona, Eugenia Aymes, Jean-Christophe Blanckaert, Alice Bluhm, Sarah L Doi, Hideyuki Eisenhauer, Nico Farjalla, Vinicius F Hood, James Kratina, Pavel Labonne, Jacques Lovelock, Catherine E Moody, Eric K Mozsár, Attila Nash, Liam Pollierer, Melanie M Potapov, Anton Romero, Gustavo Q Roussel, Jean-Marc Scheu, Stefan Scheunemann, Nicole Seeber, Julia Steinwandter, Michael Susanti, Winda Ika Tiunov, Alexei Dézerald, Olivier Plants Animals Ecosystem Phosphorus Nitrogen Carbon The elemental content of life is a key trait shaping ecology and evolution, yet organismal stoichiometry has largely been studied on a case-by-case basis. This limitation has hindered our ability to identify broad patterns and mechanisms across taxa and ecosystems. To address this, we present StoichLife, a global dataset of 28,049 records from 5,876 species spanning terrestrial, freshwater, and marine realms. Compiled from published and unpublished sources, StoichLife documents elemental content and stoichiometric ratios (%C, %N, %P, C:N, C:P, and N:P) for individual plants and animals. The dataset is standardized and, where available, includes information on taxonomy, habitat, body mass (for animals), geography, and environmental conditions such as temperature, solar radiation, and nutrient availability. By providing an unprecedented breadth of organismal stoichiometry, StoichLife enables the exploration of global patterns, ecological and evolutionary drivers, and context-dependent variations. This resource advances our understanding of the chemical makeup of life and its responses to environmental change, supporting progress in ecological stoichiometry and related fields.
format Artículo científico
id pubmed_40180992
institution PubMed
language en
publishDate 2025
publisher Scientific data
record_format pubmed
spellingShingle StoichLife: A Global Dataset of Plant and Animal Elemental Content.
González, Angélica L
Merder, Julian
Andraczek, Karl
Brose, Ulrich
Filipiak, Michał
Harpole, W Stanley
Hillebrand, Helmut
Jackson, Michelle C
Jochum, Malte
Leroux, Shawn J
Nessel, Mark P
Onstein, Renske E
Paseka, Rachel
Perry, George L W
Rugenski, Amanda
Sitters, Judith
Sperfeld, Erik
Striebel, Maren
Zandona, Eugenia
Aymes, Jean-Christophe
Blanckaert, Alice
Bluhm, Sarah L
Doi, Hideyuki
Eisenhauer, Nico
Farjalla, Vinicius F
Hood, James
Kratina, Pavel
Labonne, Jacques
Lovelock, Catherine E
Moody, Eric K
Mozsár, Attila
Nash, Liam
Pollierer, Melanie M
Potapov, Anton
Romero, Gustavo Q
Roussel, Jean-Marc
Scheu, Stefan
Scheunemann, Nicole
Seeber, Julia
Steinwandter, Michael
Susanti, Winda Ika
Tiunov, Alexei
Dézerald, Olivier
Plants
Animals
Ecosystem
Phosphorus
Nitrogen
Carbon
StoichLife: A Global Dataset of Plant and Animal Elemental Content. González, Angélica L Merder, Julian Andraczek, Karl Brose, Ulrich Filipiak, Michał Harpole, W Stanley Hillebrand, Helmut Jackson, Michelle C Jochum, Malte Leroux, Shawn J Nessel, Mark P Onstein, Renske E Paseka, Rachel Perry, George L W Rugenski, Amanda Sitters, Judith Sperfeld, Erik Striebel, Maren Zandona, Eugenia Aymes, Jean-Christophe Blanckaert, Alice Bluhm, Sarah L Doi, Hideyuki Eisenhauer, Nico Farjalla, Vinicius F Hood, James Kratina, Pavel Labonne, Jacques Lovelock, Catherine E Moody, Eric K Mozsár, Attila Nash, Liam Pollierer, Melanie M Potapov, Anton Romero, Gustavo Q Roussel, Jean-Marc Scheu, Stefan Scheunemann, Nicole Seeber, Julia Steinwandter, Michael Susanti, Winda Ika Tiunov, Alexei Dézerald, Olivier Plants Animals Ecosystem Phosphorus Nitrogen Carbon The elemental content of life is a key trait shaping ecology and evolution, yet organismal stoichiometry has largely been studied on a case-by-case basis. This limitation has hindered our ability to identify broad patterns and mechanisms across taxa and ecosystems. To address this, we present StoichLife, a global dataset of 28,049 records from 5,876 species spanning terrestrial, freshwater, and marine realms. Compiled from published and unpublished sources, StoichLife documents elemental content and stoichiometric ratios (%C, %N, %P, C:N, C:P, and N:P) for individual plants and animals. The dataset is standardized and, where available, includes information on taxonomy, habitat, body mass (for animals), geography, and environmental conditions such as temperature, solar radiation, and nutrient availability. By providing an unprecedented breadth of organismal stoichiometry, StoichLife enables the exploration of global patterns, ecological and evolutionary drivers, and context-dependent variations. This resource advances our understanding of the chemical makeup of life and its responses to environmental change, supporting progress in ecological stoichiometry and related fields.
title StoichLife: A Global Dataset of Plant and Animal Elemental Content.
topic Plants
Animals
Ecosystem
Phosphorus
Nitrogen
Carbon
url https://pubmed.ncbi.nlm.nih.gov/40180992/