Climate severity and land‐cover transformation determine plant community attributes in Colombian dry forests

González‐M., Roy; Norden, Natalia; Posada, Juan M.; Pizano, Camila; García, Hernando; Idárraga, Álvaro; Camacho, René López; Nieto, Jhon; Rodríguez‐M., Gina M.; Torres, Alba Marina; Castaño‐Naranjo, Alejandro; Jurado, Rubén; Franke-Ante, Rebeca; Galindo-T, Robinson; Hernández, R Elkin; Barbosa, Adriana; Salgado‐Negret, Beatriz

doi:10.1111/btp.12715

Cited by 19 publications

(15 citation statements)

References 92 publications

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Section: Discussionsupporting

confidence: 80%

“…Some studies have shown that precipitation and soil properties affect current patterns of species diversity in the tropical dry forest (e.g., [ 35 , 70 , 71 ]); in this sense, our results also indicate that precipitation seasonality is the most important variable for explaining species richness in the SDTF. Therefore, the highest Asteraceae richness values concentrate in relatively high and stable humidity conditions, such as those found in the Upper Balsas district.…”

Section: Discussionsupporting

confidence: 79%

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Biogeographic regionalization by spatial and environmental components: Numerical proposal

et al. 2021

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Regionalization through the analysis of species groups offers important advantages in conservation biology, compared to the single taxon approach in areas of high species richness. We use a systematic framework for biogeographic regionalization at a regional scale based on species turnover and environmental drivers (climate variables and soil properties) mainly of herbaceous plant species richness. To identify phytogeographic regions in the Balsas Depression (BD), we use Asteraceae species, a family widely distributed in Seasonally Dry Tropical Forest (SDTF) and the most diverse of the vascular plants in Mexico. Occurrence records of 571 species were used to apply a quantitative analysis based on the species turnover, the rate of changes in their composition between sites (β-Simpson index) and the analysis of the identified environmental drivers. Also, the environmental predictors that influence species richness in the SDTF were determined with a redundancy analysis. We identified and named two phytogeographic districts within the SDTF of the BD (Upper Balsas and Lower Balsas). According to the multi-response permutation procedure, floristic composition of the two districts differs significantly, and the richness of exclusive species in Upper Balsas was higher (292 species) than in the Lower Balsas (32 species). The proportion of Mg and Ca in the soil and the precipitation of the driest three-month period were the environmental factors with greatest positive influence on species richness. The division of geographic districts subordinated to the province level, based on diverse families such as Asteraceae, proved to be appropriate to set up strategies for the conservation of the regional flora, since at this scale, variation in species richness is more evident. Our findings are consistent with a growing body of biogeographic literature that indicates that the identification of smaller biotic districts is more efficient for the conservation of biodiversity, particularly of endemic or rare plants, whose distribution responds more to microhabitats variation.

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Section: Discussionsupporting

confidence: 80%

Section: Discussionsupporting

confidence: 79%

Biogeographic regionalization by spatial and environmental components: Numerical proposal

et al. 2021

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“…Tropical dry forest is an ideal model for understanding how tree species cope with drought. First, it presents a strong dry season where soil water deficit limits tree species' growth and establishment (Murphy & Lugo, 1986;González-M et al, 2019). Second, strategies to cope with water deficit have been wellstudied in adult individuals, but it is unclear whether these strategies are fully developed from the seedling ontogenetic stage.…”

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confidence: 99%

“…Second, strategies to cope with water deficit have been wellstudied in adult individuals, but it is unclear whether these strategies are fully developed from the seedling ontogenetic stage. And third, high fragmentation rates in this ecosystem can amplify the climatic severity due to the edge effects with effects on its structure and diversity (González-M et al, 2019). Understanding the functional mechanisms that determine seedling establishment will strengthen our ability to predict and understand these forests' future under climate change scenarios in which greater seasonality and reductions in rainfall are expected (Dai, 2013;Feng et al, 2013).…”

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confidence: 99%

Limited evidence of coupling between above and belowground functional traits in tropical dry forest seedlings

Arrieta-González

Paez²,

Domínguez-Haydar

et al. 2021

Rev. Biol. Trop.

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Introduction: Water availability is one of the main factors determining the distribution of woody species in the tropics. Although the functional mechanisms that determine the species tolerance to water deficit have been extensively studied in adult individuals, the responses of early ontogenetic stages have been less explored. Objective: To identify functional strategies and trait correlations between different seedlings' dimensions (leaf, stem, and root). We expect limited coordination between above and below-ground functional traits due to a single conservation-acquisition trade-off cannot capture the variability of functions and environmental pressures to which the root system is subjected. Methods: We measured 12 functional traits belonging to 38 seedling species in a tropical dry forest in Colombia. We explored the relationships between pairs of traits using Pearson correlations, and to obtain an integrated view of the functional traits, a principal component analysis (PCA) was performed. Results: The results showed limited evidence of linkage between above- and below-ground traits, but we did find significant correlations between traits for the continuum of conservative and acquisitive strategies. Root traits related to water and nutrient take capacity formed an orthogonal axis to the acquisitive-conservative continuum. Conclusions: Our results showed that dry forest seedlings have different functional strategies to cope with water deficit. The incorporation of root traits helps to explain new functional strategies not reported for leaf and stem traits. This study contributes to understanding the mechanisms that explain species coexistence and is particularly relevant for predicting future forest trajectories.

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“…This information has shown that species diversity, forest basal area, and canopy height decrease as drought and landscape transformation increase (González‐M. et al., 2019). Data have also provided insights on patterns of TDF tree species' abundance and spatial distribution, showing that almost half of the species recorded in permanent plots are extremely rare and as much as 80% exhibit a restricted distribution (Norden et al, 2019).…”

Section: Comprehensive Management Of Tdf Built Upon Permanent Plotsmentioning

confidence: 99%

Building a socio‐ecological monitoring platform for the comprehensive management of tropical dry forests

Norden

González‐M.

Avella-M.

et al. 2020

Plants People Planet

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Societal Impact Statement Tropical dry forests (TDF) underpin the wellbeing of millions, mostly rural populations; yet have suffered from severe clearing in Colombia, triggering cascading effects such as desertification. By engaging scientists, society, and institutions in the establishment of platforms for monitoring biodiversity and ecosystem functioning, crucial knowledge gaps will be bridged, helping to find a path toward sustainable development. Science‐led but socially and economically anchored information on biodiversity will help to incorporate nature's contributions to people into the society's cultural values. Ultimately, these transformative actions will translate into the comprehensive management of TDF through a greater impact in decision making. Summary Thousands of permanent plots have been established across the tropics with the purpose of monitoring tree communities. Research outcomes from these platforms, however, have been mainly directed toward the academic community, and their contribution to society has been limited so far. Here, we show how generating robust data on biodiversity has supported decision making in Colombian tropical dry forests (TDF), where less than 8% of their original cover remains. As a first step to build a national dialogue around the critical status of this ecosystem, a national collaborative network on TDF research and monitoring was born in 2014, the Red de Investigación y Monitoreo del Bosque Seco Tropical en Colombia (Red BST‐Col). Our main goal is to generate scientifically sound information that feeds into the comprehensive management of this ecosystem. To do so, a set of biodiversity monitoring platforms has been established across the country, which have already served to answer socio‐ecological questions related with deforestation drivers, citizen science, or the valuation of ecosystem services. Overall, this research agenda has nurtured the four lines that underpin the Program for the comprehensive management of dry forests in Colombia (knowledge management, preservation, restoration, and sustainable use), formulated by the Humboldt Institute, the United Nations Development Programme, and the Ministry of Environment in 2019. Many challenges are ahead, however, for a complex territory where multiple social actors and productive sectors coexist. The ultimate goal is to integrate all the dimensions of biodiversity to achieve a synthetic understanding of the functioning of the most endangered ecosystem in Colombia, and its relationship with local communities' wellbeing.

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Climate severity and land‐cover transformation determine plant community attributes in Colombian dry forests

Cited by 19 publications

References 92 publications

Biogeographic regionalization by spatial and environmental components: Numerical proposal

Biogeographic regionalization by spatial and environmental components: Numerical proposal

Limited evidence of coupling between above and belowground functional traits in tropical dry forest seedlings

Building a socio‐ecological monitoring platform for the comprehensive management of tropical dry forests

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