Biomass is the main driver of changes in ecosystem process rates during tropical forest succession

Ecology

Volumn 96, Issue 5, 2015, Pages 1242-1252

  Lohbeck, Madelon ^a,b   Poorter, Lourens ^a   Martinez Ramos, Miguel ^b   Bongers, Frans ^a   Craft, N J B ^c  

^a WAGENINGEN UNIVERSITY   (Netherlands)

^b INSTITUTO DE INVESTIGACIONES EN ECOSISTEMAS Y SUSTENTABILIDAD   (Mexico)

^c NONE

Author keywords

Biodiversity ecosystem functioning; Biomass; Community weighted mean; Decomposition; Ecosystem functioning; Ecosystem processes; Functional diversity; Functional traits; Mexico; Productivity; Secondary succession; Structural equation modeling

Indexed keywords

ADAPTATION; BIOMASS ALLOCATION; CULTIVATION; ECOSYSTEM DYNAMICS; ECOSYSTEM FUNCTION; ENVIRONMENTAL RESPONSE; FUNCTIONAL ROLE; SUCCESSION; TROPICAL FOREST;

MEXICO [NORTH AMERICA];

BIODIVERSITY; BIOMASS; CLASSIFICATION; FOREST; MEXICO; PHYSIOLOGY; PLANT; PLANT DEVELOPMENT; POPULATION DYNAMICS; TIME; TROPIC CLIMATE;

BIODIVERSITY; BIOMASS; FORESTS; MEXICO; PLANT DEVELOPMENT; PLANTS; POPULATION DYNAMICS; TIME FACTORS; TROPICAL CLIMATE;

EID: 84929094717     PISSN: 00129658     EISSN: None     Source Type: Journal    
DOI: 10.1890/14-0472.1     Document Type: Article

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