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Publicação
Fragment connectivity shapes bird communities through functional trait filtering in two types of grasslands
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Orientador(es)
Resumo(s)
Habitat fragmentation is considered one of the most severe threatening factors for global biodiversity.
Here we assessed, how local and landscape scale environmental variables, such as fragment
size (small vs. large) and landscape configuration (measured as connectivity index) relates
to bird community composition, species richness, abundance and functional diversity. We surveyed
60 grassland fragments in Hungary, belonging to two different threatened grassland types,
namely forest-steppes and kurgans. Forest-steppes are natural mosaics of grasslands and forests at
the contact zone between closed-canopy temperate forests and steppe grasslands. Kurgans are
ancient burial mounds, found on the Eurasian steppe and forest steppe zone. These fragments
were embedded in plantation forestry, respectively, agricultural matrix with gradients of size and
connectivity. Both habitats are threatened by forestry and agricultural intensification, though
these fragments may serve as important wildlife refuges. Our findings revealed that forest-steppe
birds were more diverse and abundant in large and well-connected than in small isolated fragments.
High connectivity affected ground nesting birds in small forest-steppe fragments positively.
Birds inhabiting kurgan area showed higher trait similarity in well-connected than in
isolated fragments. Bird abundance of kurgans associated with small home range size and ground
feeding habit were higher in connected compared to isolated fragments. Highly isolated kurgans
filtered for more specialised bird species but not for generalists. We provide conservation implications
for enhancing grassland specialist bird communities, which consist of preservation of
large, well-connected grassland fragments within production landscapes and through reconsideration
of the currently used intensive forestry
Descrição
Palavras-chave
environmental filtering functional diversity habitat fragmentation landscape configuration species response trait-based analysis
Contexto Educativo
Citação
Global Ecology and Conservation 28 (2021) e01687
Editora
Elsevier