Abstract
Land use change has led to large-scale insect decline, threatening ecosystem resilience through reduced functional diversity. Even in nature reserves, losses in insect diversity have been detected. Hereby, changes in local habitat quality and landscape-scale habitat quantity can play a role driving functional diversity toward erosion. Our aim was to analyze how local and landscape-scale factors simultaneously affect functional insect diversity. Therefore, we sampled moths in two Italian coastal forest reserves at 60 sites. Our focus was on functional richness, redundancy and niche occupation, being important for ecosystem resilience, following the insurance framework. Ecological information about 387 species and 14 traits was used to analyze functional diversity. Twenty-five functional groups were recognized and used to estimate niche occupation and redundancy. Fourteen local and 12 landscape-scale factors were measured and condensed by using Principal Components Analysis. The resulting PC-axes served as predictors in linear mixed effects models. Functional richness, redundancy and niche occupation of moths were lower at sites with low habitat quality and quantity, indicating reduced ecosystem resilience. Especially landscape diversity and habitat structure, viz. a humidity-nutrient gradient, but also plant diversity, were promoting functional richness. Landscape fragmentation, indicating increased impermeability for insects, reduced local functional richness, redundancy and niche occupation. Local habitat quality and landscape-wide habitat quantity are both important for maintaining functional insect diversity inside reserves. Therefore, small and isolated nature reserves might fail in preserving biodiversity and ecosystem functions through adverse effects acting from the surrounding landscape structure and configuration.
Highlights
Changing environmental conditions due to human activities can be ever more challenging for the communities inhabiting the few remaining near-natural areas
As species richness alone cannot inform about which functional niches are occupied by how many species (Lewis et al, 2014), measures of functional diversity have become an important tool for community ecology research (Mason and De Bello, 2013; Gagic et al, 2015)
At shady sites with humid and nutrientrich soils, surrounded by diverse near-natural landscapes within 1,000 m radius, we found in general more niches to be occupied by moths, more species per functional group and – in consequence – higher functional richness
Summary
Changing environmental conditions due to human activities can be ever more challenging for the communities inhabiting the few remaining near-natural areas. Yachi and Loreau (1999) theoretically investigated the relationship between species richness and ecosystem function by formulating the ‘insurance hypothesis’ This hypothesis was repeatedly supported (Oliver et al, 2015; Isbell et al, 2018), indicating the importance of species richness and functional redundancy for the resilience of ecosystem function. Different functional aspects of species here can give important insight into how species react to disturbance (response traits), and how they affect ecosystem processes (effect traits) This response-effect trait framework has been described by Suding et al (2008) and was, similar to other functional diversity approaches, first introduced in plant community research (Diaz et al, 2007; Allan et al, 2015)
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