Intra and interspecific diversity in a tropical plant clade alter herbivory and ecosystem resilience

Author:

Grele Ari J.1ORCID,Massad Tara J.2,Uckele Kathryn A.1,Dyer Lee A.13,Antonini Yasmine4,Braga Laura4,Forister Matthew L.13,Sulca Lidia5,Kato Massuo J.6,Lopez Humberto G.1,Nascimento Andre R.7,Parchman Thomas L.18,Simbaña Wilmer R.9,Smilanich Angela M.1,Stireman John O.10,Tepe Eric J.11,Walla Thomas R.12,Richards Lora A.13ORCID

Affiliation:

1. Program in Ecology, Evolution, and Conservation Biology, Department of Biology, University of Nevada

2. Department of Scientific Services, Gorongosa National Park

3. Hitchcock Center for Chemical Ecology, University of Nevada

4. Lab. de Biodiversidade, Departamento de Biodiversidade, Evolução e Meio Ambiente. Instituto de Ciências Exatas e Biológicas. Universidade Federal de Ouro Preto (UFOP). Ouro Preto

5. Departamento de Entomología, Museo de Historia Natural, Universidad Nacional Mayor de San Marcos

6. Department of Fundamental Chemistry, Institute of Chemistry, University of São Paulo

7. Department of Ecology, Universidade Federal de Goiás

8. Department of Biology, University of Nevada

9. Yanayacu Biological Station, Cosanga

10. Department of Biological Sciences, Wright State University

11. Department of Biological Sciences, University of Cincinnati

12. Department of Biology, Mesa State College

Abstract

Declines in biodiversity generated by anthropogenic stressors at both species and population levels can alter emergent processes instrumental to ecosystem function and resilience. As such, understanding the role of biodiversity in ecosystem function and its response to climate perturbation is increasingly important, especially in tropical systems where responses to changes in biodiversity are less predictable and more challenging to assess experimentally. Using large scale transplant experiments conducted at five neotropical sites, we documented the impacts of changes in intraspecific and interspecific plant richness in the genus Piper on insect herbivory, insect richness, and ecosystem resilience to perturbations in water availability. We found that reductions of both intraspecific and interspecific Piper diversity had measurable and site specific effects on herbivory, herbivorous insect richness, and plant mortality. The responses of these ecosystem-relevant processes to reduced intraspecific Piper richness were often similar in magnitude to the effects of reduced interspecific richness. Increased water availability reduced herbivory by 4.2% overall, and the response of herbivorous insect richness and herbivory to water availability were altered by both intra and interspecific richness in a site dependent manner. Our results underscore the role of intraspecific and interspecific richness as foundations of ecosystem function and the importance of community and location specific contingencies in controlling function in complex tropical systems.

Publisher

eLife Sciences Publications, Ltd

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