The Global Ecosystems Monitoring network: Monitoring ecosystem productivity and carbon cycling across the tropics

Yadvinder Malhi; Cécile A.J. Girardin; Daniel B. Metcalfe; Christopher E. Doughty; Luiz E.O.C. Aragão; Sami W. Rifai; Imma Oliveras; Alexander Shenkin; Jesus Aguirre-Gutiérrez; Cecilia A.L. Dahlsjö; Terhi Riutta; Erika Berenguer; Sam Moore; Walter Huaraca Huasco; Norma Salinas; Antonio C.L. da Costa; Lisa Patrick Bentley; Stephen Adu-Bredu; Toby R. Marthews; Patrick Meir; Oliver L. Phillips

The Global Ecosystems Monitoring network: Monitoring ecosystem productivity and carbon cycling across the tropics

Yadvinder Malhi
, Cécile A.J. Girardin
, Daniel B. Metcalfe
, Christopher E. Doughty
, Luiz E.O.C. Aragão
, Sami W. Rifai
, Imma Oliveras
, Alexander Shenkin
, Jesus Aguirre-Gutiérrez
, Cecilia A.L. Dahlsjö
, Terhi Riutta
, Erika Berenguer
, Sam Moore
, Walter Huaraca Huasco
, Norma Salinas
, Antonio C.L. da Costa
, Lisa Patrick Bentley
, Stephen Adu-Bredu
, Toby R. Marthews
, Patrick Meir

Oliver L. Phillips

Sección de Química

University of Oxford
Institutionen för Naturgeografi och Ekosystemvetenskap, Lunds Universitet
Northern Arizona University
Instituto Nacional de Pesquisas Espaciais
University of Exeter
UNSW Sydney
Naturalis Biodiversity Center
Lancaster Environment Centre
Museu Paraense Emílio Goeldi
Sonoma State University
CSIR - Forestry Research Institute of Ghana
UK Centre for Ecology & Hydrology
The University of Edinburgh
ANU Research School of Biology
University of Leeds

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

77 Citas (Scopus)

Resumen

A rich understanding of the productivity, carbon and nutrient cycling of terrestrial ecosystems is essential in the context of understanding, modelling and managing the future response of the biosphere to global change. This need is particularly acute in tropical ecosystems, home to over 60% of global terrestrial productivity, over half of planetary biodiversity, and hotspots of anthropogenic pressure. In recent years there has been a surge of activity in collecting data on the carbon cycle, productivity, and plant functional traits of tropical ecosystems, most intensively through the Global Ecosystems Monitoring network (GEM). The GEM approach provides valuable insights by linking field-based ecosystem ecology with the needs of Earth system science. In this paper, we review and synthesize the context, history and recent scientific output from the GEM network. Key insights have emerged on the spatial and temporal variability of ecosystem productivity and on the role of temperature and drought stress on ecosystem function and resilience. New work across the network is now linking carbon cycling to nutrient cycling and plant functional traits, and subsequently to airborne remote sensing. We discuss some of the novel emerging patterns and practical and methodological challenges of this approach, and examine current and possible future directions, both within this network and as lessons for a more general terrestrial ecosystem observation scheme.

Idioma original	Español
Publicación	Biological Conservation
Volumen	253
Estado	Publicada - 1 ene. 2021

Citar esto

Malhi, Y., Girardin, C. A. J., Metcalfe, D. B., Doughty, C. E., Aragão, L. E. O. C., Rifai, S. W., Oliveras, I., Shenkin, A., Aguirre-Gutiérrez, J., Dahlsjö, C. A. L., Riutta, T., Berenguer, E., Moore, S., Huasco, W. H., Salinas, N., da Costa, A. C. L., Bentley, L. P., Adu-Bredu, S., Marthews, T. R., ... Phillips, O. L. (2021). The Global Ecosystems Monitoring network: Monitoring ecosystem productivity and carbon cycling across the tropics. Biological Conservation, 253.

@article{2406daf5aa7d433ba45cd73bf49cc55e,

title = "The Global Ecosystems Monitoring network: Monitoring ecosystem productivity and carbon cycling across the tropics",

abstract = "A rich understanding of the productivity, carbon and nutrient cycling of terrestrial ecosystems is essential in the context of understanding, modelling and managing the future response of the biosphere to global change. This need is particularly acute in tropical ecosystems, home to over 60\% of global terrestrial productivity, over half of planetary biodiversity, and hotspots of anthropogenic pressure. In recent years there has been a surge of activity in collecting data on the carbon cycle, productivity, and plant functional traits of tropical ecosystems, most intensively through the Global Ecosystems Monitoring network (GEM). The GEM approach provides valuable insights by linking field-based ecosystem ecology with the needs of Earth system science. In this paper, we review and synthesize the context, history and recent scientific output from the GEM network. Key insights have emerged on the spatial and temporal variability of ecosystem productivity and on the role of temperature and drought stress on ecosystem function and resilience. New work across the network is now linking carbon cycling to nutrient cycling and plant functional traits, and subsequently to airborne remote sensing. We discuss some of the novel emerging patterns and practical and methodological challenges of this approach, and examine current and possible future directions, both within this network and as lessons for a more general terrestrial ecosystem observation scheme.",

author = "Yadvinder Malhi and Girardin, \{C{\'e}cile A.J.\} and Metcalfe, \{Daniel B.\} and Doughty, \{Christopher E.\} and Arag{\~a}o, \{Luiz E.O.C.\} and Rifai, \{Sami W.\} and Imma Oliveras and Alexander Shenkin and Jesus Aguirre-Guti{\'e}rrez and Dahlsj{\"o}, \{Cecilia A.L.\} and Terhi Riutta and Erika Berenguer and Sam Moore and Huasco, \{Walter Huaraca\} and Norma Salinas and \{da Costa\}, \{Antonio C.L.\} and Bentley, \{Lisa Patrick\} and Stephen Adu-Bredu and Marthews, \{Toby R.\} and Patrick Meir and Phillips, \{Oliver L.\}",

year = "2021",

month = jan,

day = "1",

language = "Espa{\~n}ol",

volume = "253",

journal = "Biological Conservation",

}

Malhi, Y, Girardin, CAJ, Metcalfe, DB, Doughty, CE, Aragão, LEOC, Rifai, SW, Oliveras, I, Shenkin, A, Aguirre-Gutiérrez, J, Dahlsjö, CAL, Riutta, T, Berenguer, E, Moore, S, Huasco, WH, Salinas, N, da Costa, ACL, Bentley, LP, Adu-Bredu, S, Marthews, TR, Meir, P & Phillips, OL 2021, 'The Global Ecosystems Monitoring network: Monitoring ecosystem productivity and carbon cycling across the tropics', Biological Conservation, vol. 253.

TY - JOUR

T1 - The Global Ecosystems Monitoring network: Monitoring ecosystem productivity and carbon cycling across the tropics

AU - Malhi, Yadvinder

AU - Girardin, Cécile A.J.

AU - Metcalfe, Daniel B.

AU - Doughty, Christopher E.

AU - Aragão, Luiz E.O.C.

AU - Rifai, Sami W.

AU - Oliveras, Imma

AU - Shenkin, Alexander

AU - Aguirre-Gutiérrez, Jesus

AU - Dahlsjö, Cecilia A.L.

AU - Riutta, Terhi

AU - Berenguer, Erika

AU - Moore, Sam

AU - Huasco, Walter Huaraca

AU - Salinas, Norma

AU - da Costa, Antonio C.L.

AU - Bentley, Lisa Patrick

AU - Adu-Bredu, Stephen

AU - Marthews, Toby R.

AU - Meir, Patrick

AU - Phillips, Oliver L.

PY - 2021/1/1

Y1 - 2021/1/1

N2 - A rich understanding of the productivity, carbon and nutrient cycling of terrestrial ecosystems is essential in the context of understanding, modelling and managing the future response of the biosphere to global change. This need is particularly acute in tropical ecosystems, home to over 60% of global terrestrial productivity, over half of planetary biodiversity, and hotspots of anthropogenic pressure. In recent years there has been a surge of activity in collecting data on the carbon cycle, productivity, and plant functional traits of tropical ecosystems, most intensively through the Global Ecosystems Monitoring network (GEM). The GEM approach provides valuable insights by linking field-based ecosystem ecology with the needs of Earth system science. In this paper, we review and synthesize the context, history and recent scientific output from the GEM network. Key insights have emerged on the spatial and temporal variability of ecosystem productivity and on the role of temperature and drought stress on ecosystem function and resilience. New work across the network is now linking carbon cycling to nutrient cycling and plant functional traits, and subsequently to airborne remote sensing. We discuss some of the novel emerging patterns and practical and methodological challenges of this approach, and examine current and possible future directions, both within this network and as lessons for a more general terrestrial ecosystem observation scheme.

AB - A rich understanding of the productivity, carbon and nutrient cycling of terrestrial ecosystems is essential in the context of understanding, modelling and managing the future response of the biosphere to global change. This need is particularly acute in tropical ecosystems, home to over 60% of global terrestrial productivity, over half of planetary biodiversity, and hotspots of anthropogenic pressure. In recent years there has been a surge of activity in collecting data on the carbon cycle, productivity, and plant functional traits of tropical ecosystems, most intensively through the Global Ecosystems Monitoring network (GEM). The GEM approach provides valuable insights by linking field-based ecosystem ecology with the needs of Earth system science. In this paper, we review and synthesize the context, history and recent scientific output from the GEM network. Key insights have emerged on the spatial and temporal variability of ecosystem productivity and on the role of temperature and drought stress on ecosystem function and resilience. New work across the network is now linking carbon cycling to nutrient cycling and plant functional traits, and subsequently to airborne remote sensing. We discuss some of the novel emerging patterns and practical and methodological challenges of this approach, and examine current and possible future directions, both within this network and as lessons for a more general terrestrial ecosystem observation scheme.

M3 - Artículo

VL - 253

JO - Biological Conservation

JF - Biological Conservation

ER -