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Ecology and Distribution of Nymphalid butterflies in Nameri National Park and Chandubi reserve forest of Assam with special reference to forest disturbances. Dr. malabika kakati Saikia
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Study examines the hypothesis, whether the diversity of Nymphalid butterflies in tropical primary forest of Chandubi is associated with vegetation structure and canopy openness and that this relationship differs between butterfly taxa in relation to phylogenetic differences in light and shade preferences. Study has emphasized whether the increasing diversity of butterflies in degraded tropical forest is associated with the loss of species with restricted geographical distribution. Study considered altogether eight habitat variables and the t-test using equal variance, Spearman rank correlation and multiple regressions were also used for statistical analyses. Species diversity was analyzed using Margalef’s D indices that indicate both the species richness and abundance. Bootstrap method was used to compare the diversity among samples. PCA was done to examine the relationship between vegetation structure and species diversity in primary and degraded forest. The relationship between vegetation factor scores and species diversity in each sampling station in primary and degraded forest was analyzed using stepwise multiple regression. Results indicates that the butterflies species sampled in closed canopy forest had more restricted geographical distribution than those being sampled in disturbed forest. The species with greater light preference had significantly wider geographical distribution, whereas the species with greater shade preferences had significantly narrower geographical range. The stepwise analysis of multiple regressions between the diversity indices of shade groups of butterflies and vegetation density (PRIN 1) of closed forest shows a significant positive relationship, but the relationship was negative when similar analysis was carried out between species diversity indices of light preferred groups and vegetation density. Majority of closed canopy forest butterflies are sensitive to changes in moisture availability and humidity. Thus, changes in canopy cover and light penetration through microclimatic effects on adult and larval survival does have an impact on butterfly distributions and abundance. While the species richness and diversity are higher in degraded forest, the conservation value of primary forest lies more in the presence of species with restricted ranges. Owing to loss of diverse vegetation in degraded forest, the dense canopy cover and transparent ground cover has been reduced and thus leading to decline of forest butterflies species. Study has clearly indicated the strong and significant relationship that exists between the species of narrow range of geographical distribution and species shade preference. The restricted ranges species are affected due to forest degradation. Thus, clearly bringing into light, that increasing diversity in degraded forest is associated with the loss of species with restricted geographical distribution.
Key words: Nymphalid butterflies, forest degradation, primary forests, conservation value, endemic species, geographic distribution range, light and shade groups, phylogeny, tropical forests.
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Results show high diversity and low constancy of a heterogeneous fauna of butterflies associated with the ruderal transect. The diversity of forest butterflies is lower, but their constancy is higher. More pronounced diurnal activity is exhibited by butterfly arrays in ruderal habitats. Large scale size of geographic range correlates negatively with the degree of association of a species with mature (near climax) forest. Species of endemic distribution in E Himalayas, Yunnan and N Indochina, are associated with the forest climax of the Tam Dao Mountains. Several new faunistic records from Vietnam and a list of Tam Dao species are given. -from Authors
In the butterfly community of the Tam Dao montane rain forest in N Vietnam a negative correlation between the size of species geographic range and maturity of the successional stage of its preferred habitat was found. Thus butterflies confined to the climax forest tend to have a small range of distribution of endemitic type, whereas species associated with disturbed ruderal and similar habitats are much more widely distributed. Within the forest, understorey species are most habitat specific and endemitic, with the most important conservation value. Canopy fauna is much more heterogeneous and diverse, containing also non-forest components. The pronounced temporary change in the forest community is determined by the relatively higher seasonality of species with biogeographical affinities to the seasonal "East Himalayan' region. Apart from this historical component, the irregular migratory behaviour and response to the seasonal change in local environmental factors seem to be important. In the ruderal habitat, butterflies with large geographic range tend to have the highest population sizes; the reverse is true for the forest community. -from Authors
An explicit means of calculating the expected number of species [E(S"n)] and the variance of (S"n) in a random sample of n individuals from a collection containing N individuals and S species is presented. An example illustrates a new use of E(S"n): determination of the sample size required for any desired degree of accuracy in collecting species known to occur in a particular area.
1. The butterfly fauna of lowland monsoon forest on Buru, Indonesia was compared in unlogged forest and forest that had been selectively logged 5 years previously. 2. Seven variables relating to vegetation structure were measured in each habitat. Tree density and percentage cover of vegetation in the canopy and understorey were significantly higher, and vegetation cover 2 m above the ground was significantly lower, in unlogged forest. There were no differences between sites in the mean heights or girths of trees, but the ranges of both heights and girths were lower in logged forest. Percentage cover of vegetation at ground level was similar at the two sites. 3. Species richness, abundance and evenness of butterflies and an index of taxonomic distinctiveness were all significantly higher in unlogged forest. Two endemic species and a further four species with distributions restricted to Maluku Province were recorded only in unlogged forest. 4. Species abundance data for butterflies at both sites fitted a log-series distribution. Data for unlogged forest also fitted a log-normal distribution, whereas those for logged forest did not. This indicated the presence of a more complex butterfly community in unlogged forest. 5. These results indicate that the distributional pattern of species abundance of tropical butterflies may be used as an indicator of forest disturbance, and that selective logging of tropical forests in SE Asia may be associated with a significant decrease in biodiversity of butterflies, at least during the first 5 years of forest regeneration.