Thermal niche traits of high alpine plant species and communities across the tropical Andes and their vulnerability to global warming

Cuesta, Francisco; Tovar, Carolina; Llambí, Luis Daniel; Gosling, William D.; Halloy, Stephan; Carilla, Julieta; Muriel, Priscilla; Meneses, Rosa Isela; Beck, Stephan; Ulloa, Carmen Ulloa; Yager, Karina; Aguirre, Nikolay; Viñas, Paúl; Jácome, Jorge González; Suárez‐Duque, David; Buytaert, Wouter; Pauli, Harald

doi:10.1111/jbi.13759

Cited by 49 publications

(61 citation statements)

References 56 publications

(81 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In the latitudinal gradient, rainfall increased towards the equator while mean temperature did not show a clear pattern but seasonal thermal amplitude was higher with increasing latitude (i.e. further from the equator) [64].…”

Section: Discussionmentioning

confidence: 87%

See 1 more Smart Citation

Elevation and latitude drives structure and tree species composition in Andean forests: Results from a large-scale plot network

et al. 2020

Self Cite

View full text Add to dashboard Cite

Section: Discussionmentioning

confidence: 87%

“…Also, the tropical niche conservatism hypothesis may explain the observed pattern where species diversity and biogeographic processes are driven by historical climate where the stable, wet, warm and a-seasonal tropical climate promote high diversity [69,70,71] and narrower niches (i.e. the latitudinal gradient hypothesis) [64,72].…”

Section: Discussionmentioning

confidence: 99%

Elevation and latitude drives structure and tree species composition in Andean forests: Results from a large-scale plot network

et al. 2020

Self Cite

View full text Add to dashboard Cite

“…First, small and fragmented Páramo sky islands in the Western Cordillera exhibit neutral climate sensitivity, a counterintuitive projection that Mavárez et al (2018) also pointed out for Espeletiinae in isolated Páramo areas at Cordillera de Mérida. This reiterative finding suggests that scarce topographical complexity (terrain ruggedness) in recently colonized small islands (Flantua et al, 2019) may have favored habitat generalists, while intricate local-scale environmental heterogeneity at larger Páramo complexes could have triggered an explosive radiation (Cortés et al, 2018a;Naciri and Linder, 2020) of habitat specialists, each with a narrow ecological niche for migration to occur (Cuesta et al, 2019b). Modern colonization and limited topographical complexity, together with higher connectivity, may also account for the second exception, which is that range gains are only predicted for Páramo areas in the Central Cordillera (Los Nevados, Chilí-Barragán, Las Hermosas, and La Cocha-Patascoy), where the dominant taxon is E. hartwegiana.…”

Section: Range Losses In the Espeletia Complex Will Widespread Througmentioning

confidence: 98%

Climate Vulnerability Assessment of the Espeletia Complex on Páramo Sky Islands in the Northern Andes

et al. 2020

View full text Add to dashboard Cite

“…These characteristics could help endozoochorous species to eventually outcompete cold-adapted species such as the barochorous herbaceous species under warming scenarios. Cold-adapted species also have narrower thermal niches (Cuesta et al, 2020) and are typical of biomes projected to suffer habitat reduction due to climate change (Tovar, Arnillas, Cuesta, & Buytaert, 2013). A reduction in species with unspecialized seeds has been already observed in European mountain summits during the last century due to warming (Matteodo et al, 2013), highlighting the potential risk to the Andean barochorous species due to climate change.…”

Section: Implications For Climate Change Scenarios and Future Stepsmentioning

confidence: 99%

“…Analysis were run in R using the codes provided byPavoine et al (2011).Lastly, as a way to infer whether trait states are constrained by climatic conditions we analysed if species with different dispersal mode/growth form had, in average, different thermal responses. We obtained the thermal optimum, minimum and maximum for each species fromCuesta et al (2020). These values were built using monthly temperatures extracted from all known locations of the species (whole distribution range).…”

mentioning

confidence: 99%

Plant dispersal strategies of high tropical alpine communities across the Andes

et al. 2020

Self Cite

View full text Add to dashboard Cite

Dispersal is a key ecological process that influences plant community assembly. Therefore, understanding whether dispersal strategies are associated with climate is of utmost importance, particularly in areas greatly exposed to climate change. We examined alpine plant communities located in the mountain summits of the tropical Andes across a 4,000‐km latitudinal gradient. We investigated species dispersal strategies and tested their association with climatic conditions and their evolutionary history. We used dispersal‐related traits (dispersal mode and growth form) to characterize dispersal strategies for 486 species recorded on 49 mountain summits. Then we analysed the phylogenetic signal of traits and investigated the association between dispersal traits, phylogeny, climate and space using structural equation modelling and fourth‐corner analysis together with RLQ ordination. A median of 36% species in the communities was anemochorous (wind‐dispersed) and herbaceous. This dispersal strategy was followed by the barochory‐herb combination (herbaceous with unspecialized seeds, dispersed by gravity) with a median of 26.3% species in the communities. The latter strategy was common among species with distributions restricted to alpine environments. While trait states were phylogenetically conserved, they were significantly associated with a temperature gradient. Low minimum air temperatures, found at higher latitudes/elevations, were correlated with the prevalence of barochory and the herb growth form, traits that are common among Caryophyllales, Brassicaceae and Poaceae. Milder temperatures, found at lower latitudes/elevations, were associated with endozoochorous, shrub species mostly from the Ericaceae family. Anemochorous species were found all along the temperature gradient, possibly due to the success of anemochorous Compositae species in alpine regions. We also found that trait state dominance was more associated with the climatic conditions of the summit than with community phylogenetic structure. Although the evolutionary history of the tropical Andean flora has also shaped dispersal strategies, our results suggest that the environment had a more predominant role. Synthesis. We showed that dispersal‐related traits are strongly associated with a gradient of minimum air temperatures in the Andes. Global warming may weaken this key filter at tropical alpine summits, potentially altering community dispersal strategies in this region and thus, plant community structure and composition.

show abstract

Thermal niche traits of high alpine plant species and communities across the tropical Andes and their vulnerability to global warming

Cited by 49 publications

References 56 publications

Elevation and latitude drives structure and tree species composition in Andean forests: Results from a large-scale plot network

Elevation and latitude drives structure and tree species composition in Andean forests: Results from a large-scale plot network

Climate Vulnerability Assessment of the Espeletia Complex on Páramo Sky Islands in the Northern Andes

Plant dispersal strategies of high tropical alpine communities across the Andes

Contact Info

Product

Resources

About