Water Availability Is the Main Climate Driver of Neotropical Tree Growth

Wagner, Fabien; Rossi, Vivien; Stahl, Clément; Bonal, Damien; Hérault, Bruno

doi:10.1371/journal.pone.0034074

Cited by 88 publications

(106 citation statements)

References 77 publications

(89 reference statements)

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“…wood production, in tropical forests have been highlighted in most longterm permanent plots (Nepstad et al, 2002;Stahl et al, 2010;Wagner et al, 2012), even under very stable climate conditions (O'Brien et al, 2008;Clark et al, 2010). This seasonality is obviously linked to the intra-annual variation of cambial activity that has been reported in various environments, from dry (Worbes, 1999;Enquist and Leffler, 2001;Lisi et al, 2008) to flooded forests (Schongart et al, 2002), but also in more mesic environmental conditions (Fichtler et al, 2003;Clark et al, 2010).…”

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confidence: 93%

“…Current studies performed in tropical rainforests have highlighted three major climate drivers of secondary growth, rainfall, solar irradiance and air temperature: (i) rain or lack of rain is often implicitly viewed as the main driver of rainforest dynamics (Phillips et al, 2009), as annual net primary production (NPP) generally positively correlates with the annual amount of precipitation (Tian et al, 1998). Recently, Wagner et al (2012) showed that rainfall seasonality plays a key role in the tropical forests' response to climate variability. (ii) Irradiance is directly linked to plant photosynthetic capacity, in turn driving carbon uptake and plant growth (Graham et al, 2003).…”

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confidence: 99%

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Asynchronism in leaf and wood production in tropical forests: a study combining satellite and ground-based measurements

Wagner

Rossi²,

Stahl

et al. 2013

Biogeosciences

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Abstract. The fixation of carbon in tropical forests mainly occurs through the production of wood and leaves, both being the principal components of net primary production. Currently field and satellite observations are independently used to describe the forest carbon cycle, but the link between satellite-derived forest phenology and field-derived forest productivity remains opaque. We used a unique combination of a MODIS enhanced vegetation index (EVI) dataset, a wood production model based on climate data and direct litterfall observations at an intra-annual timescale in order to question the synchronism of leaf and wood production in tropical forests. Even though leaf and wood biomass fluxes had the same range (respectively 2.4 ± 1.4 and 2.2 ± 0.4 Mg C ha −1 yr −1 ), they occurred separately in time. EVI increased with leaf renewal at the beginning of the dry season, when solar irradiance was at its maximum. At this time, wood production stopped. At the onset of the rainy season, when new leaves were fully mature and water available again, wood production quickly increased to reach its maximum in less than a month, reflecting a change in carbon allocation from short-lived pools (leaves) to long-lived pools (wood). The time lag between peaks of EVI and wood production (109 days) revealed a substantial decoupling between the leaf renewal assumed to be driven by irradiance and the water-driven wood production. Our work is a first attempt to link EVI data, wood production and leaf phenology at a seasonal timescale in a tropical evergreen rainforest and pave the way to develop more sophisticated global carbon cycle models in tropical forests.

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confidence: 93%

mentioning

confidence: 99%

Asynchronism in leaf and wood production in tropical forests: a study combining satellite and ground-based measurements

Wagner

Rossi²,

Stahl

et al. 2013

Biogeosciences

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“…In addition to nutrients, water availability can be responsible for over 60 % of the environmental effect on tree growth (Wagner et al, 2012). In this study, we hypothesized that the growth of saplings in the forest understory is limited by both sunlight and the availability of soil nutrients, and that variations in soil water content across rainfall seasons infl uence photosynthesis and sapling growth.…”

Section: Introductionmentioning

confidence: 99%

“…Its vegetation stores about 90 Pg (1 Pg = 10 15 g) of carbon (Saatchi et al, 2007), and about 50 % of the rainfall in the region comes from water cycled via transpiration (Salati, 1987;Fisher et al, 2009). Net productivity of tropical forests may be limited by several factors, including nutrient defi ciency (Vitousek et al, 2010), sunlight (Graham et al, 2003) and soil water content (Wagner et al, 2012).…”

Section: Introductionmentioning

confidence: 99%

Do soil fertilization and forest canopy foliage affect the growth and photosynthesis of Amazonian saplings?

Magalhães

Marenco

Camargo

2014

Sci. agric. (Piracicaba, Braz.)

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Most Amazonian soils are highly weathered and poor in nutrients. Therefore, photosynthesis and plant growth should positively respond to the addition of mineral nutrients. Surprisingly, no study has been carried out in situ in the central Amazon to address this issue for juvenile trees. The objective of this study was to determine how photosynthetic rates and growth of tree saplings respond to the addition of mineral nutrients, to the variation in leaf area index of the forest canopy, and to changes in soil water content associated with rainfall seasonality.We assessed the effect of adding a slow-release fertilizer. We determined plant growth from 2010 to 2012 and gas exchange in the wet and dry season of 2012. Rainfall seasonality led to variations in soil water content, but it did not affect sapling growth or leaf gas exchange parameters. Although soil amendment increased phosphorus content by 60 %, neither plant growth nor the photosynthetic parameters were infl uenced by the addition of mineral nutrients. However, photosynthetic rates and growth of saplings decreased as the forest canopy became denser.Even when Amazonian soils are poor in nutrients, photosynthesis and sapling growth are more responsive to slight variations in light availability in the forest understory than to the availability of nutrients. Therefore, the response of saplings to future increases in atmospheric [CO 2 ] will not be limited by the availability of mineral nutrients in the soil.

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“…Já Worbes et al (2003), analisando os anéis de crescimento do tronco, descreveram diferentes padrões de crescimento para diferentes espécies: espécies com curva de crescimento sigmoidal (crescimento constante na fase juvenil, com aumento da taxa de crescimento na maturidade e redução na fase final do ciclo de vida); espécies com curva exponencial de crescimento por toda a vida; e as que não apresentavam padrões identificáveis. Mais recentemente, análises do crescimento das árvores vêm sendo empregadas para compreensão das respostas das espécies diante das mudanças climáticas, ocasionadas por ações antrópicas ou naturais, na tentativa de prever alterações na estrutura florestal decorrentes dessas novas condições (CLARK et al, 2010;WAGNER et al, 2012). Assim, a avaliação do CCT do tronco das árvores pode ser uma forma de caracterizar a autoecologia das espécies e o funcionamento de florestas, contribuindo para o manejo adequado e o sucesso de reflorestamentos em cenários futuros (KREPKOWSKI et al, 2011).…”

Section: Introductionunclassified

Periodicidade do crescimento de espécies arbóreas da Floresta Estacional Semidecidual no Sul do Brasil

Blagitz¹,

Botosso²,

Bianchini³

et al. 2016

Sci. For.

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ResumoEmbora a sazonalidade climática seja menos evidente nas regiões tropicais que nas temperadas, muitas espécies tropicais apresentam crescimento rítmico. A avaliação do crescimento em circunferência do tronco (CCT) permitirá obter informações sobre o desenvolvimento dos indivíduos de espécies arbóreas desta região. Esse estudo teve como objetivo avaliar o CCT de 11 espécies arbóreas de uma floresta estacional semidecidual no sul do Brasil, visando testar duas hipóteses: (i) existe sazonalidade no CCT das árvores e este crescimento está relacionado às variações climáticas da região de estudo; (ii) as características dos indivíduos (posição sociológica, altura da árvore, grau de ocupação por lianas, deciduidade e diâmetro à altura do peito) influenciam no incremento acumulado em circunferência. Para detectar a periodicidade do CCT foram implantadas faixas dendrométricas permanentes no tronco (altura do DAP) de 156 indivíduos. O acompanhamento do crescimento foi realizado mensalmente por um período de 18 meses. Foram feitas correlações do CCT mensal com a precipitação, temperatura e fotoperíodo para verificar a influencia dos fatores ambientais e análise de covariância para averiguar se as características dos indivíduos também interferiram no incremento acumulado em circunferência do tronco. As espécies apresentaram um padrão sazonal de CCT, com as maiores taxas de crescimento de outubro a dezembro, sendo que os parâmetros ambientais avaliados atuaram em conjunto -principalmente o fotoperíodo e a temperatura -promovendo essa sazonalidade e confirmando a primeira hipótese. Considerando as características dos indivíduos, somente o diâmetro do tronco correlacionou-se negativamente com o incremento acumulado em circunferência (b = -0,32; p = 0,02), aceitando parcialmente a segunda hipótese. Palavras-chave: deciduidade, floresta tropical, grupos sucessionais, Mata Atlântica, sazonalidade. AbstractAlthough seasonality is less evident in the tropics than in temperate ones, many tropical species present rhythmic growth. The stem circumference growth (SCG) evaluation will provide information on the development of tree species in this region. This study aimed to evaluate the SCG of 11 tree species of a tropical semi-deciduous forest in Southern Brazil. Two hypotheses were advanced: (i) seasonality of the trees SCG exist and it is related to climatic variations of the study area; (ii) individual characteristics (tree height, degree of occupancy by lianas, sociological position, deciduousness and diameter at breast height) influence the circumference cumulative growth. To detect the SCG periodicity, permanent dendrometric bands were fixed around the stem (diameter at breast height, or DBH) of 156 individuals. Growth was monitored monthly for a period of 18 months. Correlations of monthly SCG with precipitation, temperature and photoperiod were made to verify the environmental parameters' influence and a covariance analysis was performed to enquire if individual characteristics also affected cumulative increase in circumfer...

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Water Availability Is the Main Climate Driver of Neotropical Tree Growth

Cited by 88 publications

References 77 publications

Asynchronism in leaf and wood production in tropical forests: a study combining satellite and ground-based measurements

Asynchronism in leaf and wood production in tropical forests: a study combining satellite and ground-based measurements

Do soil fertilization and forest canopy foliage affect the growth and photosynthesis of Amazonian saplings?

Periodicidade do crescimento de espécies arbóreas da Floresta Estacional Semidecidual no Sul do Brasil

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