Changes in Alpine Butterfly Communities during the Last 40 Years
| Autor: | Bonelli S.[1], Cerrato C.[1, Barbero F.[1], Boiani M.V.[3], Buffa G.[1], Casacci L.P.[1], Fracastoro L.[1], Provenzale A.[3], Rivella E.[4], Zaccagno M.[1], Balletto E.[1] |
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| Jazyk: | angličtina |
| Rok vydání: | 2022 |
| Předmět: | |
| Zdroj: | Insects, Vol 13, Iss 43, p 43 (2022) Insects Insects; Volume 13; Issue 1; Pages: 43 Insects 13 (2022): 1–22. doi:10.3390/insects13010043 info:cnr-pdr/source/autori:Bonelli S.[1], Cerrato C.[1,2], Barbero F.[1], Boiani M.V.[3], Buffa G.[1], Casacci L.P.[1], Fracastoro L.[1], Provenzale A.[3], Rivella E.[4], Zaccagno M.[1], Balletto E.[1]/titolo:Changes in Alpine Butterfly Communities during the Last 40 Years/doi:10.3390%2Finsects13010043/rivista:Insects/anno:2022/pagina_da:1/pagina_a:22/intervallo_pagine:1–22/volume:13 |
| ISSN: | 2075-4450 |
| Popis: | Simple Summary The Alps are among the most vulnerable ecosystems to climate change, as these modifications take place at a faster pace at higher elevations. Since butterflies are ideal model systems to investigate species responses to climate and habitat changes, we monitored a butterfly community of the Valasco valley in the Maritime Alps (NW Italy) by three sampling events covering a period longer than 40 years. We observed an overall increase in mobile, tolerant and thermophilous species, which eventually might cause an overall loss of community distinctiveness. The variations observed in the butterfly community can be explained by the notable increase in maximum temperatures and the reduction of grasslands, along with the increase of woodlands, supporting the hypothesis that local warming and land-use changes have ultimately affected the butterfly community composition. Abstract Our work aims to assess how butterfly communities in the Italian Maritime Alps changed over the past 40 years, in parallel with altitudinal shifts occurring in plant communities. In 2019, we sampled butterflies at 7 grassland sites, between 1300–1900 m, previously investigated in 2009 and 1978, by semi-quantitative linear transects. Fine-scale temperature and precipitation data elaborated by optimal interpolation techniques were used to quantify climate changes. The changes in the vegetation cover and main habitat alterations were assessed by inspection of aerial photographs (1978–2018/1978–2006–2015). The vegetation structure showed a marked decrease of grassland habitats and an increase of woods (1978–2009). Plant physiognomy has remained stable in recent years (2009–2019) with some local exceptions due to geomorphic disturbance. We observed butterfly ‘species substitution’ indicating a general loss in the more specialised and a general gain in more tolerant elements. We did not observe any decrease in species richness, but rather a change in guild compositions, with (i) an overall increased abundance in some widespread and common lowland species and (ii) the disappearance (or strong decrease) of some alpine (high elevation) species, so that ‘resilience’ could be just delusive. Changes in butterfly community composition were consistent with predicted impacts of local warming. |
| Databáze: | OpenAIRE |
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