Spatial turnover amplifies with trophic level in hyperdiverse food webs
Spatial turnover amplifies with trophic level in hyperdiverse food webs
Libra, M.; Novotny, V.; Whitfield, J. B.; Miller, S. E.; North, A.; Mottl, O.; Basset, Y.; Butterill, P. T.; Quicke, D. L. J.; Shima, H.; Weiblen, G. D.; Wahl, D.; Auga, J.; Molem, K.; Hrcek, J.
AbstractOne of the most intuitive ideas in ecology is that diversity at lower trophic levels in food webs provides niches to support diversity at higher trophic levels. This accumulation of diversity can be limited by survival of species in the landscape, but revealing these limits has been challenging. We analyze spatial turnover in a hyperdiverse parasitoid-caterpillar-plant food web across 75,000 km2 of continuous lowland rainforest in Papua New Guinea. Species turnover across sites is higher in parasitoids than in their caterpillar hosts. Furthermore, turnover of interactions is also higher in parasitoid-caterpillar than caterpillar-plant networks. Spatial turnover thus amplifies upwards across trophic levels, forcing parasitoids to live closer to spatial persistence limits. Consequently, progressing rainforest fragmentation can especially endanger parasitoids.