Humidity, low temperature extremes, and space influence floristic variation across an insightful gradient in the Subtropical Atlantic Forest

Rezende, Vanessa Leite; Eisenlohr, Pedro V.; Vibrans, Alexander Christian; Oliveira‐Filho, Ary Teixeira de

doi:10.1007/s11258-015-0465-9

Cited by 26 publications

(27 citation statements)

References 54 publications

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“…This is probably explained by the specific climatic conditions of this transitional region between climate types and biogeographic domains. Decreasing values of minimum temperatures, associated with extreme events, positively affected the contribution of component S, and increasing values of annual temperature range, associated with a broader variation in mean temperatures throughout the year, negatively affected the contribution of component C. Increasing values of both variables also positively affected component R. For subtropical southern Brazil, which presents high values of annual rainfall across the year, temperature is reported to be a more important variable in explaining species composition across forest types (Oliveira‐Filho et al., 2015; Rezende, Eisenlohr, Vibrans, & Oliveira‐Filho, 2015). For this region, decreasing mean annual temperature has been associated with tree species composition in both Pampean and Araucaria forests (Bergamin, Müller, & Mello, 2012; Oliveira‐Filho et al., 2015).…”

Section: Discussionmentioning

confidence: 99%

Short gradient, but distinct plant strategies: The CSR scheme applied to subtropical forests

Rosenfield

Müller

Overbeck

2019

J Vegetation Science

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Questions Plant communities in transitional zones between ecosystem types have potentially a large range of ecological strategies, even along short gradients. Exploring these regional differences and the drivers of variation is important to understand plant adaptations and changes in ecological processes between distinct ecosystems. Here, we ask whether distinct forest types in the subtropical region present plant communities with distinct ecological strategies and, if so, if these differences are driven by climatic variables. Location Subtropical forests in southern Brazil. Methods We compiled species lists from 112 sites distributed across rainforests, seasonal forests, Araucaria forests and Pampean forests. We used Grime's CSR scheme and calculated, for each species, CSR values based on information of three leaf traits: leaf area, specific leaf area and leaf dry matter content. Species CSR values were used to calculate the mean value for each community. We selected four climatic variables related to temperate and precipitation and analyzed their influence on plant strategies by linear mixed models. Results Our results showed a strong CS component for all subtropical forests studied, with a small contribution from component R. We found clear differences in ecological strategies between forest types: rainforest showed the highest values of component C, and Araucaria and Pampean forests presented the highest values of component S. We found a strong influence of temperature variables on ecological strategies. Conclusions Even along a short latitudinal gradient, we found differences in ecological strategies across forest types. Araucaria and Pampean forests were strongly associated with the stress‐tolerant strategy, as they face lower minimum temperatures and/or a larger temperature range, whereas rainforests, which face warmer temperatures and a lower range of variation, presented a strategy where competition is of higher importance. This highlights that regional environmental conditions in this transitional zone influence ecological strategies of tree communities.

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Section: Discussionmentioning

confidence: 99%

Short gradient, but distinct plant strategies: The CSR scheme applied to subtropical forests

Rosenfield

Müller

Overbeck

2019

J Vegetation Science

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“…Abiotic conditions are the major factors that shape plant traits along elevational gradients (Hovenden and Brodribb, 2000;Körner, 2007;Thomas, 2011;Guerin et al, 2012;Rezende et al, 2015). Our results demonstrate that leaf area, shape factor, and petiole width are mainly influenced by MAP, whereas variations in leaf length, width, the ratio of leaf length to width, and petiole length are due to elevation-dependent fluctuations in both MAP and UV-B (Table 3).…”

Section: Discussionmentioning

confidence: 51%

“…Elevational clines represent a "natural laboratory" within which we can better understand how such traits fluctuate in response to growing conditions. This is because environmental factors change along an elevational gradient, even within a small geographical area in some cases (Hovenden and Brodribb, 2000;Thomas, 2011;Rezende et al, 2015). Moreover, when one considers their close associations with environmental factors, these morphological traits can be used to predict the consequences of climate changes (Hudson et al, 2011;Tsonev et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

Variations in Leaf Morphological Traits of Quercus guyavifolia (Fagaceae) were Mainly Influenced by Water and Ultraviolet Irradiation at High Elevations on the Qinghai-Tibet Plateau, China

Sun¹,

Su²,

Zhang

et al. 2016

IJAB

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Leaf morphological traits vary along elevational gradients so that plants can adapt to their surrounding habitat. However, the abiotic factors that shape those traits are still debatable, especially for plants at high elevations where the environment can be very harsh. Quercus guyavifolia H. Léveillé (Fagaceae) is a woody plant found along the southeastern boundary of the Qinghai-Tibet Plateau. Distribution elevations of the species range from 2000 m to 4500 m approximately, providing an excellent opportunity to explore correlations among leaf traits and environmental factors. We used multiple-regression models to investigate spatial trends in leaf morphology and their environmental determinants. As elevation increased, values for leaf area, length, width, the ratio of leaf length to width, shape factor, and petiole length and width decreased significantly and all were positively correlated with mean annual precipitation. Leaf length, the ratio of leaf length to width, and petiole length were negatively correlated with the daily mean maximum intensity of ultraviolet (UV)-B irradiation during the growing season. Our results indicated that the amounts of both precipitation and UV irradiation largely shape the leaf morphology in Q. guyavifolia along the elevation gradient. This study provides evidence for the adaptive plasticity of leaves in response to environments in regions at high elevations.

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“…A Floresta Ombrófila Mista ou Floresta com Araucária faz parte do Bioma Mata Atlântica e recobre de forma contínua parte significativa dos estados do Sul do Brasil, além de áreas disjuntas no Sudeste, sempre em regiões de maior altitude e frias dos planaltos (DUARTE et al, 2014;KERSTEN et al, 2015;REZENDE et al, 2015). Nessas regiões, eventos climáticos de grandes proporções são incomuns, porém, tornaram-se mais frequentes nas últimas décadas (MARCELINO et al, 2009;LIMA & LOREDO-SOUZA, 2015), o que reforça a necessidade de estudos avaliando danos desses eventos sobre as comunidades florestais.…”

Section: Introductionunclassified

“…2) Como a dinâmica do recrutamento pode contribuir para biomassa após a passagem do ciclone? (REZENDE et al, 2015). A região encontra-se, geologicamente, na formação Serra Geral, que é constituída por rochas vulcânicas basálticas, onde predominam três tipos de solos: Cambissolo, Nitossolo e Latossolo.…”

Section: Introductionunclassified

Efeitos De Um Ciclone Extratropical Na Biomassa De Árvores Em Fragmentos De Floresta Com Araucária

Liebsch

Longhi-Santos

Galvão

et al. 2018

BIOFIX

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RESUMODistúrbios naturais causados pela intensificação dos efeitos das mudanças climáticas são cada vez mais comuns nas regiões subtropicais do Sul do Brasil. Procuramos quantificar a perda de biomassa aérea em fragmentos de Floresta com Araucária atingidos pela passagem de um ciclone extratropical e analisar como a dinâmica do recrutamento pode contribuir para recuperação da biomassa. Em 2009 foram alocadas 116 parcelas de 10 m x 20 m, nas quais foram amostrados todos os indivíduos arbóreos com DAP > 4,8 cm. Neste mesmo ano, parte das parcelas foi atingida por um ciclone extratropical. Em 2014 e 2016 as parcelas foram novamente amostradas. A biomassa foi definida com uso equação específica, tanto para os indivíduos remanescentes, como para recrutados. Verificou-se uma redução significativa da biomassa nas parcelas afetadas pelo ciclone, assim como maior ganho de biomassa dos indivíduos recrutados para essas áreas. Passados sete anos da ocorrência do ciclone, as parcelas afetadas não recuperaram a biomassa a níveis pré-ciclone. A intensificação de eventos climáticos extremos para região subtropical do continente Sul-americano é preocupante e traz uma nova questão a ser avaliada em estudos futuros. PALAVRAS-CHAVE: Distúrbio, Mortalidade, Mudanças climáticas, Sucessão secundária. ABSTRACTNatural disturbances caused by the intensification of climate change effects are becoming increasingly common in subtropical regions of Southern Brazil. We quantified aboveground biomass loss in Araucaria Forest fragments affected by the passage of an extratropical cyclone and analysed how recruitment dynamics can contribute with biomass recovery. In 2009 we set 116 (10 m x 20 m) plots in which we surveyed all arboreal individuals with a DBH > 4.8 cm. In the same year, part of the plots was hit by an extratropical cyclone. In 2014 and 2015 the plots were surveyed again. Biomass was defined using a specific equation, for both remaining and recruited individuals. We verified a significant loss in biomass in the plots affected by the cyclone, as well as a higher gain in biomass of the individuals recruited in these areas. Seven years after the cyclone passage, the affected plots did not recover to precyclone levels of biomass. The intensification of extreme climate events in the South American subtropical region is alarming and it brings a new question to be assessed in future studies.

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Humidity, low temperature extremes, and space influence floristic variation across an insightful gradient in the Subtropical Atlantic Forest

Cited by 26 publications

References 54 publications

Short gradient, but distinct plant strategies: The CSR scheme applied to subtropical forests

Short gradient, but distinct plant strategies: The CSR scheme applied to subtropical forests

Variations in Leaf Morphological Traits of Quercus guyavifolia (Fagaceae) were Mainly Influenced by Water and Ultraviolet Irradiation at High Elevations on the Qinghai-Tibet Plateau, China

Efeitos De Um Ciclone Extratropical Na Biomassa De Árvores Em Fragmentos De Floresta Com Araucária

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