Herbivory makes major contributions to ecosystem carbon and nutrient cycling in tropical forests

Metcalfe, Daniel; Asner, Gregory P.; Martin, Roberta E.; Espejo, Javier E. Silva; Huasco, Walter Huarca; Amézquita, Felix F. Farfán; Carranza-Jimenez, Loreli; Galiano-Cabrera, Darcy F.; Durand-Baca, Liliana; Sinca, Felipe; Huaraca-Quispe, Lidia P.; Alzamora-Taype, Ivonne; Eguiluz-Mora, Luzmila; Rozas-Dávila, Angela; Solórzano, Marlene Mamani; Vilca, Beisit L. Puma; Román, Judith M. Laupa; Bustios, Patricia C. Guerra; Salinas-Revilla, Norma; Tupayachi, Raul; Girardin, Cécile A. J.; Doughty, Christopher E.; Malhi, Yadvinder

doi:10.1111/ele.12233

Konferensabstrakt2014Vetenskapligt granskad

Herbivory makes major contributions to ecosystem carbon and nutrient cycling in tropical forests

Metcalfe, Daniel; Asner, Gregory P.; Martin, Roberta E.; Espejo, Javier E. Silva; Huasco, Walter Huarca; Amézquita, Felix F. Farfán; Carranza-Jimenez, Loreli; Galiano-Cabrera, Darcy F.; Durand-Baca, Liliana; Sinca, Felipe; Huaraca-Quispe, Lidia P.; Alzamora-Taype, Ivonne; Eguiluz-Mora, Luzmila; Rozas-Dávila, Angela; Solórzano, Marlene Mamani; Vilca, Beisit L. Puma; Román, Judith M. Laupa; Bustios, Patricia C. Guerra; Salinas-Revilla, Norma; Tupayachi, Raul;
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Sammanfattning

The functional role of herbivores in tropical rainforests remains poorly understood. We quantified the magnitude of, and underlying controls on, carbon, nitrogen and phosphorus cycled by invertebrate herbivory along a 2800m elevational gradient in the tropical Andes spanning 12 degrees C mean annual temperature. We find, firstly, that leaf area loss is greater at warmer sites with lower foliar phosphorus, and secondly, that the estimated herbivore-mediated flux of foliar nitrogen and phosphorus from plants to soil via leaf area loss is similar to, or greater than, other major sources of these nutrients in tropical forests. Finally, we estimate that herbivores consume a significant portion of plant carbon, potentially causing major shifts in the pattern of plant and soil carbon cycling. We conclude that future shifts in herbivore abundance and activity as a result of environmental change could have major impacts on soil fertility and ecosystem carbon sequestration in tropical forests.

Nyckelord

Climate change; ecosystem biogeochemistry; net primary productivity; nitrogen cycle; plant-soil feedbacks; soil phosphorus; montane rainforest

Publicerad i

Ecology Letters
2014, volym: 17, nummer: 3, sidor: 324-332
Utgivare: WILEY-BLACKWELL

SLU författare

Metcalfe, Daniel
- Institutionen för skogens ekologi och skötsel, Sveriges lantbruksuniversitet

Associerade SLU-program

SLU Nätverk växtskydd

UKÄ forskningsämne

Skogsvetenskap

Publikationens identifierare

DOI: https://doi.org/10.1111/ele.12233

Permanent länk till denna sida (URI)

https://res.slu.se/id/publ/52015