Research Article
Biodiversity of Butterflies from Districts Poonch and Sudhnoti, Azad Kashmir
Not Available
M. Rahim Khan
Not Available
Khurshid Ali
Not Available
Ikram Bashir
Not Available
Israr Ahmed Malik
Not Available
Adil Mir
Not Available
Butterflies are the most abundant group of insects on the earth which are recognizable among the general public and science due to their beautiful colors and graceful flight[1]. The butterflies are found in every part of the world wherever the flowering plants are found[2] inhabiting even very high altitude, Arctic, Antarctic, mountains covered with perpetual snow and glaciers[3].
Systematically the butterflies are being studied since 18th century and up till now 4500 species have been documented from the world but the fauna of the area under study was completely unexplored[4-7] and it is the first attempt to explore the butterfly fauna and to calculate the distributional diversity which will be continuously monitored with the passage of the time in this area of the world.
District Poonch of Azad Kashmir is one of the most beautiful pieces of land due to the green vegetation, very high alpine trees and the flowering plants of all kinds. The climate of the district is not very diverse. Only a few places like Hajira are hot during the summer, where as on the whole this district has very cold winter and the most of the areas are included in snow zone. Some areas of the district could not be sampled due to unavailability of roads links.
District Sudhnoti is adjacent to district Poonch and climatically some places of district Sudhnoti are more or less the same like Nakka Bazar and Gorah but remaining all the places from district Sudhnoti are very hot during the summer and mild during the winter. The vegetation of this district is also very different from that of district Poonch. In this district, small bushes and shrubs are very abundant, where as high trees are very patchy and dense vegetation is sparse.
Therefore, the present study aims at the bio-diversity of butterflies in the Poonch and Sudhnoti districts of Azad Kashmir.
The butterflies were collected from ten localities of district Poonch namely: Datot, Paniola, Topa, Singhola, Hussain Kot, Ali Sojal, Khaigala, Banjonsa and Hajira and eight localities from district Sudhnoti namely: Azad Pattan, Baral, Pallandri city, Nakka Bazar, Pattan Sher Khan, Mong, Gorah and Saundh (Fig. 1).
The localities were visited fortnightly through out the summer season, from mid March to the end of October 2000. In this way the whole summer season was completed. The specimens were preserved in the polythene bags and brought to the laboratory and later on identified to the species level with the help of available literature[8,9]. The rank lists were prepared from each locality according to the maximum abundance with the help of which the diversity indices were calculated and two collective rank lists were also prepared (Table 3 and 4).
The diversity was calculated by using diversity indices namely: Shannon-Wieners diversity index[10], along with its equitability component, Margalefs index[11,12], Simpsons index[13] and RI index[14,15]..
Fig. 1: | Map of districts Poonch and Sudhnoti showing the sampled places |
Sampled places of district Poonch
1. | Datot | 6. | Rawalakot |
2. | Paniola | 7. | Ali Sojal |
3. | Topa | 8. | Khaigala |
4. | Singola | 9. | Banjonsa |
5. | Hussain Kot | 10. | Hajira |
Sampled places of district Sudhnoti
I. | Nakka Bazaar | V. | Gorah |
II. | Mong | VI. | Pallandri city |
III. | Pattan Sher Khan | VII. | Saundh |
IV. | Azad Pattan | VIII. | Baral |
The form of the Shannon-Wiener index used is H= -∑{(pi)log2pi}, where, pi is the proportion with in the sample of the number of the individuals of ith species and it is ni/N, where, ni is the number of individuals in ith species and N is the total number of individuals. But the, form of the index used in the present study is: H=C {log10N-1/N∑(nrlog10nr)}, where N is the total number of the individuals, nr is the rank abundance in ith species C is the conversion factor from log2 to log10.
The form of the Shannons equitability used is: J=H/Hmax, where, H is the Shannon-Wieners diversity index and Hmax is the log2 of S, where, S is the total number of species in the sample.
The form of the Margalefs index used is: d=S-1/logeN. Where, S is the number of species and N is the total number of individuals.
The Simpsons index used is D=1-∑(pi)2, where, pi is the proportion of ith species and is calculated as ni/N, where, ni is the total number of individuals in the ith species and N is the total number of individuals in the sample but the form of the index used in the present study is: D=∑[ni{ni-1/N(N-1)}], where, ni is the number of individuals in ith species and N is the total number of individuals in the sample. This index gives the species abundance and is denoted by D. As the D increases the diversity decreases. Thats why this index is usually expressed as 1-D or 1/D.
The last index used is RI index. The form of the index used is RI=∑Ri/S(M-1), where S is the number of investigated species of insects, M is the number of rank of abundance (0,1,2,3, M-1) and Ri is the rank value of ith species in the sample.
Diversity is the central theme of ecology and its measures are frequently seen as the indicators of the wellbeing of the ecological system. As the diversity is hard to define, similarly, it is difficult to calculate because the collection of data and their processing is a time taking and tedious job. However, it is the major feature of the animal communities. It is the number of species present and their numerical composition. Diversity is the niche time stability dependent, which means if a large number of niches are present; it will support higher diversity[16-18]. Generally, homogeneous conditions yield low diversity where as heterogeneous conditions yield higher diversity[19-21]. Diversity indices are a measure of a way in which individuals in an ecological community are distributed among species.
A co-efficient of diversity is a convenient way of demonstrating the variety of species present in a habitat or a sample and the abundance of individuals with in the species. The measure of diversity of the fauna will represent the number and the available niches present in the environment. If niche heterogeneity is great, it will support a more diverse fauna and thus will result in a higher co-efficient or index of diversity[22].
The first index used in the present study is Shannon-Wieners diversity index. This index is distribution dependent and suffers least from criticism of validity in application of biological data[23].
The calculated values of this index at different localities of district Poonch ranged from 3.145 (Topa) to 4.366 (Khaigala). The lowest diversity was calculated from Topa (3.145), Hajira (3.167), Ali Sojal (3.192) and Paniola (3.217). The highest diversity was calculated from Rawalakot (4.012) and Khaigala (4.366). Remaining all the stations yielded the diversity of this index ranging from 3.405 (Singhola) to 3.991 (Hussain Kot) (Table 1). The calculated values of the shannons diversity index from district Sudhnoti ranged from 3.29 (Plandri City) -3.81 (Azad Pattan), remaining all the stations yield diversity index values from 3.41 (Saundh) to 3.79 (Mong) (Table 2).
Table 1: | Calculated values of diversity indices from different localities of Poonch, Azad Kashmir |
Table 2: | Calculated values of diversity indices from different localities of Sudhnoti, Azad Kashmir |
Table 3: | The collective rank list along with the lists of Taxa collected from different localities of district Poonch, Azad Kashmir |
The stations like Topa and Khaigala yielded the lowest diversity because at these stations the vegetation is sparse and the flowering plants are very scanty which attract less number of insects towards them. More over high trees are also less abundant which provide less favorable habitat to the butterflies.
The localities which yielded higher diversity (Rawalakot and Hussain Kot) have very dense vegetation and abundant flowering plants and high trees which provide very favorable habitat to the butterflies. Their larvae can easily find the host plants and the dense vegetation provide excellent shelter to the adult butterflies, particularly during the summer.
Table 4: | The collective rank list along with the lists of Taxa from different localities of district Sudhnoti, Azad Kashmir |
The calculated values of this index showed that butterflies are more or less equally distributed at all the stations of district Sudhnoti because the calculated values did not show the much difference among the station (Table 2).
Shannons equitability component ranged from 0.737 (Topa) to 0.941 (Khaigala), indicating that the lowest equitability was calculated from Topa and the highest diversity was calculated from Khaigala. Both the values indicate that the butterfly fauna is more or less evenly distributed at all the localities of district Poonch. The calculated values of this index showed that the distribution of butterflies at all the stations of this district is even (Table 1). Shannons equitability calculated from district Sudhnoti ranged from 0.83 (Pallandri City) to 0.95 (Pattan Sher Khan) which showed that the butterflies evenness at all the stations of this district is more or less the same.
Third index used was Margalefs index which ranged from 2.485 (Hajira) to 4.570 (Datot). This index indicates that the species richness was slightly higher at the localities like Datot, Topa, Hussain Kot, Rawalakot and Khaigala, where as it was slightly lower at Singhola, Paniola, Ali Sojal and Banjonsa. The calculated values of Margalefs index at different localities of district Sudhnoti ranged from 2.60 (Pattan Sher Khan) to 4.03 (Azad Pattan), indicating that butterflies are more abundant at Azad Pattan and less abundant at Pattan Sher Khan, remaining all the stations showed more or less the same abundance (Table 2).
These calculated values coincide with those of Shannon-Wieners diversity index and its equitability component.
The fourth index used was Simpsons index. This index gives the species abundance and denoted by D. As D increases diversity decreases and the Simpsons index is usually expressed as 1-D or 1/D. This index is heavily weighted towards the most abundant species and being less sensitive to species richness[19].
The calculated values of Simpsons index D ranged from 0.0336 (Khaigala) to 0.145 (Ali Sojal). The calculated values of 1-D ranged from 0.854 (Ali Sojal) to 0.968 (Khaigala). Similarly 1/D ranged from 6.872 (Ali Sojal) to 29.703 (Khaigala).
This index showed that the lowest abundance was obtained from Ali Sojal and the highest abundance was obtained from Khaigala. The flora of the Khaigala is densely rich which supported high diversity where as, at Ali Sojal lower diversity was due to reason that the difficult terrain could not be sampled properly. The calculated values of Simpsons index D ranged from 0.07 (Azad Pattan) to 0.115 (Saundh). Similarly 1-D ranged from 0.88 (Saundh) to 0.927 (Azad Pattan) and 1/D ranged from 10.90 (Boral) to 13.71(Azad Pattan). It is indicating that maximum richness was calculated from Azad Pattan.
The last index used was RI index which ranged from 0.541 to 0.583 which indicates that the distribution of the butterflies at the localities of this district is more or less same. The calculated values of R1 index ranged from 0.55 (Azad Pattan) to 0.64 (Baral). This index showed that butterflies at all the stations of district Sudhnoti are more or less equally distributed.
District Poonch of Azad Kashmir is mostly very cold during the winter and temperature falls down sub-zero and during the summer the weather remains mild. All the locations sampled more or less the same climatic conditions except with little variations. District Sudhnoti of Azad Kashmir is mostly hot during the summer where temperature goes to 37-40°C at stations like Azad Pattan, Baral, Pattan Sher Khan and Saundh but some areas like Gorah the summer is not very hot where as the winter is very cold. Despite this variation in the climate the flora of district is not very diverse, thats why the distributions of the butterflies in the district is not adversely effected by the flora.
All the indices used concluded that the butterflies are normally distributed in the area under study. Neither any species are reported to be highly supported by enriched flora nor were any species reported to be threatened to become extinct.
The present study is the first of this type of study in the area. Therefore, it is very difficult to say whether the diversity of the butterflies in the area is increasing or decreasing. Therefore, it is suggested that the area under the study should be continuously monitored to observe any changes in the diversity of butterflies, because the changes in the diversity can only observed through continuous monitoring and comparing the data of every year.