Abstract
Identifying the processes that drive community assembly has long been a central theme in ecology. For microorganisms, a traditional prevailing hypothesis states that “everything is everywhere, but the environment selects”. Although the bacterial community in floral nectar may be affected by both atmosphere (air-borne bacteria) and animals as dispersal vectors, the environmental and geographic factors that shape microbial communities in floral nectar are unknown. We studied culturable bacterial communities in Asphodelus aestivus floral nectar and in its typical herbivorous bug Capsodes infuscatus, along an aridity gradient. Bacteria were sampled from floral nectar and bugs at four sites, spanning a geographical range of 200 km from Mediterranean to semi-arid conditions, under open and bagged flower treatments. In agreement with the niche assembly hypothesis, the differences in bacterial community compositions were explained by differences in abiotic environmental conditions. These results suggest that microbial model systems are useful for addressing macro-ecological questions. In addition, similar bacterial communities were found in the nectar and on the surface of the bugs that were documented visiting the flowers. These similarities imply that floral nectar bacteria dispersal is shaped not only by air borne bacteria and nectar consumers as previously reported, but also by visiting vectors like the mirid bugs.
Highlights
Identifying processes that drive community assembly have long been a central theme in ecology [1,2]
We studied the composition of communities of culturable bacteria in floral nectar of Asphodelus aestivus along a 200 km climatic gradient in Israel
We have demonstrated that bacterial communities in nectar collected from Asphodelus aestivus plants located along a steep climatic gradient differed significantly in composition across sites
Summary
Identifying processes that drive community assembly have long been a central theme in ecology [1,2]. There are two distinct views of community structuring: niche assembly [3] and dispersal assembly [4,5]. A central prediction of the dispersal assembly hypothesis is that community similarity decreases with increasing geographic distance, regardless of differences in environmental variables among sites [5]. It predicts that communities located at sites with similar environmental conditions will have similar species compositions [9,10]. The spatial patterns of species assemblages will be affected by environmental differences among sites. Our ability to disentangle the effects of environmental and spatial factors on community composition is vital in understanding the determinants of species richness, variation and biodiversity patterns [11,12]
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