R. K. Chaturvedi scite author profile

Functional traits (FTs) integrate the ecological and evolutionary history of a species, and can potentially be used to predict its response as well as its influence on ecosystem functioning. Study of inter-specific variation in the FTs of plants aids in classifying species into plant functional types (PFTs) and provides insights into fundamental patterns and trade-offs in plant form and functioning and the effect of changing species composition on ecosystem functions. Specifically, this paper focuses on those FTs that make a species successful in the dry tropical environment. Following a brief overview, we discuss plant FTs that may be particularly relevant to tropical deciduous forests (TDFs). We consider the traits under the following categories: leaf traits, stem and root traits, reproductive traits, and traits particularly relevant to water availability. We compile quantitative information on functional traits of dry tropical forest species. We also discuss trait-based grouping of plants into PFTs. We recognize that there is incomplete knowledge about many FTs and their effects on TDFs and point out the need for further research on PFTs of TDF species, which can enable prediction of the dynamics of these forests in the face of disturbance and global climate change. Correlations between structural and ecophysiological traits and ecosystem functioning should also be established which could make it possible to generate predictions of changes in ecosystem services from changes in functional composition.

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Carbon density and accumulation in woody species of tropical dry forest in India

Chaturvedi

Raghubanshi

Singh

2011

Forest Ecology and Management

127

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Effect of grazing and harvesting on diversity, recruitment and carbon accumulation of juvenile trees in tropical dry forests

Chaturvedi¹,

Raghubanshi²,

Singh³

2012

Forest Ecology and Management

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Effect of dust load on the leaf attributes of the tree species growing along the roadside

Chaturvedi

Prasad

Rana

et al. 2012

Environ Monit Assess

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Impacts of human disturbance in tropical dry forests increase with soil moisture stress

Chaturvedi

Raghubanshi

Tomlinson

et al. 2017

J Vegetation Science

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Abbreviations AMI = annual mortality index; ARI = annual recruitment index; D = stem diameter (cm); H = plant height (m); SMC = soil moisture content (%); TDF = tropical dry forest. Abstract Questions: (1) Which disturbances (harvesting, browsing, drought and fire) are important for tree mortality in a tropical dry forest (TDF), and do these change with size class (juvenile, sapling, adult)? (2) How is mortality and recruitment in a TDF related to soil moisture content (SMC) and does the relationship change for different size classes? (3) Is disturbance-related mortality selectively removing particular species from the TDF? Nomenclature DuthieLocation: Sonebhadra and Mirzapur districts, Uttar Pradesh, India. Methods:We analysed the structure of a TDF in central India in terms of the tree composition of juveniles, saplings and adults at five distinct sites located along a gradient of SMC, and recorded the numbers of individuals in each size class killed by the four disturbance types over 2 yr. We also recorded total stem density and recruitment at each site. We compared annual mortality index (AMI) and its four disturbance components (harvesting, browsing, drought and fire) and annual recruitment index (ARI) against the mean SMC of each site using GLMM. Results:The impact of all disturbances on total AMI decreased as SMC increased whereas ARI increased as SMC increased. Mortality due to harvesting was substantially higher than other disturbances for adult and sapling trees, whereas both harvesting and browsing were important drivers of mortality for juveniles. There was little evidence that particular species were being deliberately selected for harvesting across sites.Conclusions: Tree saplings and adults in this TDF were mainly killed by harvesting, indicating that anthropogenic impacts on tree mortality are more important than non-anthropogenic impacts in the TDF, and impacts of all disturbances become more severe with increasing water stress. Thus changes in TDF structure due to harvesting are likely to be more rapid in more arid environments.

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R. K. Chaturvedi

Plant functional traits with particular reference to tropical deciduous forests: A review

Carbon density and accumulation in woody species of tropical dry forest in India

Effect of grazing and harvesting on diversity, recruitment and carbon accumulation of juvenile trees in tropical dry forests

Effect of dust load on the leaf attributes of the tree species growing along the roadside

Impacts of human disturbance in tropical dry forests increase with soil moisture stress

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