@pablomlucas
ORCID: 0000-0003-4517-9748 Postdoc @ Univ. of Seville | πΎ Conservation Biology | Biogeography | π Macroecology | Large mammals π»πΊ π| Studying global change effects on biodiversity π‘οΈπ±
Trophic Interactions Are Key to Understanding the Effects of Global Change on the Distribution and Functional Role of the Brown Bear
π buff.ly/h0P8Ho6
@unisevilla.bsky.social @csic.es @mncn-csic.bsky.social @ebdonana.bsky.social @csicdivulga.bsky.social @eloyrevilla.bsky.social @laura-pollock.bsky.social
1β£6β£π KEY MESSAGES:
1β£ Ecological networks help improve biodiversity & #speciesdistributionmodels under #climate & #land-use change.
2β£ Global change reshapes #foodwebs, affecting #ecosystem structure & function.
3β£ We need better data on species #interactions.
1β£5β£Brown bears have a wide potential distribution in Europe, but future #climatechange and land-use changesβthrough abiotic and biotic factorsβwill affect each subpopulation differently.
1β£4β£The inclusion of biotic interactions considerably improved our understanding of brown bear distribution at large (continental) scales compared with Bayesian models including only abiotic factors (climate and land use)
1β£3β£Bear diet depends of climate and land use variables, for example subpopulations located in areas with higher temperatures eat more plants, which means that bears have different roles in the ecosystems
1β£2β£π¨ RESULTSπ¨ What brown bear eats?
1β£1β£ We fitted three models explaining the distribution of brown bear (Using the historical range data and the current data): 1) A model with only abiotic variables 2) A model only biotic variables 3) A model combining abiotic and biotic variables
πAnd the #biotic variables
9β£ Using all wild species in the brown bear diet, we created #biotic variables based on the energy each species provides. We combined this with #habitat #models for each #diet species using
@gbif.es @gbif.org , #climate, and #landuse data
8β£β¦ and (2) high-resolution occurrences of brown bears from all European and Turkish subpopulations. We built a database with over 3 million π» occurrences from more than 3,000 individuals, covering a broad environmental range.β
7β£We combined distribution data for brown bears by using (1) range-scale data from the Eurasian range, complemented with historical range info from historical sources. Avilable at zenodo.org/records/1537...
6β£ To fill the bioticβinteraction gap, we reviewed 47 studies on the π»β―brown bearβs dietππΏππ¦π« across Europe and built a detailed trophic database β a #foodweb withβ―>1,300 quantitative, empirical links, available at zenodo.org/records/1536...
5β£ β¦and from a #conservation perspective, the brown bear is a keystone species in some of the most important protected areas of the continent: #CordilleraCantΓ‘brica #Pyrenees #Alps #Carpathians #Apennines #Pindus #Balkans #Finland #Baltic #Scandinavia #Natura2000 #TΓΌrkiye #Tatra
4β£ To address this, we focused on the #brownbear in #Europe and #TΓΌrkiye β a well-studied species and region. From an #ecosystem perspective, the brown bear is a top #predator and an #omnivorous generalist, key to ecosystems and with several subpopulations at #extinction risk e.g. #Cantabrian
3β£ However, when studying species distributions at large scales, we usually focus on abiotic variables such as climate and land use. This is partly due to the limited data on biotic interactions at broad scales β a gap known as the Eltonian shortfall. annualreviews.org/doi/abs/10.1...
2β£ Hutchinson proposed that species distributions are shaped by a complex set of abiotic and biotic factors. For example, the #IberianLynx πΊ depends on rabbit π°abundance (Monterroso et al. 2016).
π’PAPER ALERT!!π¨π¨
Our article βTrophic interactions are key to understanding how global change shapes the distribution and ecological role of the brown bearβ π»is now online in
@globalchangebio.bsky.social #Climate #Ecology #Biodiversity #bear #SDM #carnivores
onlinelibrary.wiley.com/doi/10.1111/...
New paper! led by Ruben Bernardo-Madrid "A general rule on the organization of biodiversity in Earthβs biogeographical regions" in NEE @natureportfolio.nature.com
Read it here: doi.org/10.1038/s415...