Successional patterns and gap phase dynamics of a humid tropical forest of the Western Ghats of Kerala, India: ground vegetation, biomass, productivity and nutrient cycling

Chandrashekara, U. M. ; Ramakrishnan, P. S. (1994) Successional patterns and gap phase dynamics of a humid tropical forest of the Western Ghats of Kerala, India: ground vegetation, biomass, productivity and nutrient cycling Forest Ecology and Management, 70 (1-3). pp. 23-40. ISSN 0378-1127

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Official URL: http://linkinghub.elsevier.com/retrieve/pii/037811...

Related URL: http://dx.doi.org/10.1016/0378-1127(94)90072-8

Abstract

The population dynamics of the ground vegetation and its energetics such as biomass accumulation and net primary productivity, and the nutrient cycling patterns in the humid tropical forest of the Western Ghats in India are largely determined by gap age and by whether gaps are formed naturally or through selection felling. Responses of plant categories such as herbs, shrubs, tree seedlings and saplings also vary depending upon gap type and age. An exotic species such as Chromolaena odorata occurred only in selection-felled gaps ((9 ± 3)-(49 ± 4) individuals (100 m)). Nilgirianthus ciliatus, a dominant shrub, plays a key role in the gaps in determining population dynamics of others. The net primary productivity of the ground vegetation, which is about 31.17 ± 4.26 kg (100 m) year in an undisturbed site, increased a year after gap formation to 102.82 ± 6.46 kg (100 m) year in natural gaps and to 71.82 ± 2.36 kg (100 m) year in selection-felled gaps. Five years after gap formation, net primary productivity of the ground vegetation declined considerably, this being related to decline in fast-growing shrub and secondary tree species in the vegetation and gap closure. A similar trend was also recorded for the rates of nutrient uptake and nutrient accumulation in the vegetation. In natural gaps the soil nutrient level increased gradually with gap age. This could be attributed to slow release of nutrients from the fallen trunks and nutrient storage in the rapidly recovering vegetation. In contrast, in selection-felled gaps, the quantities of soil nutrients such as nitrogen, phosphorus and magnesium were higher in 1-year-old gaps than in undisturbed sites, owing to the release of these nutrients from leaf litter and wood debris which were deposited in larger quantities within the gap itself, and owing to sparse ground vegetation resulting from the greater disturbance of the soil, in the first 1 or 2 years. The fractional annual turnover rates of elements of the ground vegetation and the soil were higher in 1-year-old gaps and declined with gap age. The significance of these results for forest management is discussed.

Item Type:Article
Source:Copyright of this article belongs to Elsevier Science.
Keywords:Forest Gap Dynamics; Ground Vegetation; Humid Tropical Forest; Natural Canopy Gap; Selection-felled Gap
ID Code:56744
Deposited On:25 Aug 2011 10:22
Last Modified:25 Aug 2011 10:22

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