Habitat modification alters the structure of tropical host–parasitoid food webs

• Published in: Nature Vol. 445; no. 7124; pp. 202 - 205
• Main Authors: Tylianakis, Jason M., Tscharntke, Teja, Lewis, Owen T.
• Format: Journal Article
• Language: English
• Published: London Nature Publishing Group UK 11.01.2007; Nature Publishing; Nature Publishing Group
• Subjects: Agriculture; agroecosystems; Animal and plant ecology; Animal, plant and microbial ecology; Animals; Applied ecology; Bees - physiology; Biodiversity; Biological and medical sciences; Biological control; Conservation, protection and management of environment and wildlife; Crops, Agricultural - metabolism; Crops, Agricultural - parasitology; Ecology; Ecosystem services; Ecuador; Environmental degradation: ecosystems survey and restoration; Food Chain; Food webs; Fundamental and applied biological sciences. Psychology; General aspects; habitat destruction; Habitats; Host-Parasite Interactions; Human Activities; Humanities and Social Sciences; Hymenoptera; insect ecology; land use change; letter; multidisciplinary; Nesting; Parasites; Parasitism; parasitoids; Plants - metabolism; Plants - parasitology; Pollen - physiology; Pollination; Reproduction - physiology; Science; Science (multidisciplinary); Species diversity; Species richness; Synecology; Tropical Climate; tropical forests; tropics; Wasps - physiology; Ecuador; Community structure; Host parasite relation; Insecta; Trophic structure; Tropical zone; Trophic relation; Change; Perturbation; Biodiversity; Host selection; Species diversity; Parasitoid; Food web; Arthropoda; Habitat; Parasitism; Invertebrata; Comparative study; Interspecific relation; Anthropogenic factor
• ISSN: 0028-0836; 1476-4687; 1476-4687; 1476-4679
• DOI: 10.1038/nature05429

A tangled web Global change has the potential to influence species interactions, but the consequences for ecosystem function and stability are hard to predict. Quantitative food webs provide a powerful tool to probe such questions, but to date they have been used mainly to describe individual communities. A study of 48 plots in the Choco-Manabi region of Ecuador, where large-scale agriculture threatens biodiversity, now confirms that human habitat modification can dramatically affect networks of feeding interactions among species in host–parasitoid food webs. The switch from tropical rainforest to intensive agriculture has negative consequences for bees and wasps, which are important for pollination and biological pest control. This study provides a replicated, quantitative demonstration of the consequences of human-mediated habitat modification for networks of feeding interactions among species in tropical host–parasitoid food webs. Global conversion of natural habitats to agriculture has led to marked changes in species diversity and composition 1 . However, it is less clear how habitat modification affects interactions among species 2 . Networks of feeding interactions (food webs) describe the underlying structure of ecological communities, and might be crucially linked to their stability and function 3 , 4 , 5 , 6 , 7 . Here, we analyse 48 quantitative food webs 8 , 9 for cavity-nesting bees, wasps and their parasitoids across five tropical habitat types. We found marked changes in food-web structure 10 , 11 across the modification gradient, despite little variation in species richness. The evenness of interaction frequencies declined with habitat modification, with most energy flowing along one or a few pathways in intensively managed agricultural habitats. In modified habitats there was a higher ratio of parasitoid to host species and increased parasitism rates, with implications for the important ecosystem services, such as pollination and biological control, that are performed by host bees and wasps 12 . The most abundant parasitoid species was more specialized in modified habitats, with reduced attack rates on alternative hosts. Conventional community descriptors failed to discriminate adequately among habitats, indicating that perturbation of the structure and function of ecological communities might be overlooked in studies that do not document and quantify species interactions. Altered interaction structure therefore represents an insidious and functionally important hidden effect of habitat modification by humans.