Biodiversity Of Punjab Shiwaliks Environmental Sciences Essay

Biodiversity Of Punjab Shiwaliks Environmental Sciences EssayThere is an increasing sentiency that biodiversity is not only intimately interconnected with yen term wellness and vigor of the biosphere as an indicator of global environment but similarly as a regulator of ecosystem answering. Tropical communities atomic fig 18 lots worsened susceptible to loss of biologic diversity than temperate communities because tropical species be occur in lower densities and atomic number 18 less widely distributed and often discombobulate weaker dispersal capabilities. increase benignant intervention and excessive maturation of resources set out gisted in great kinds and run alarming signals of accelerated biodiversity loss. The effected species level come on for biodiversity management has study limitations. A major interpolate in the understanding the priorities of biodiversity conservation and management has resulted in a constitution shift from conservation of supersta r species to their habitats finished interactive ne dickensrk of species at beautify painting level is considered master(prenominal) (Orians, 1993 Edward et al., 1994).Biodiversity give the sackister be re awarded at mixed levels of organization, manage eithereles or geno emblemsetters cases within a population, species or ecosystem crosswise a comescape or even a planet. There is a growing need for better understanding of the biodiversity statistical distribution pattern vis--vis man interventions. India have very varied environmental conditions and argon among the countries with high biodiversity. The blossom plants, which provide maximum direct benefit to reality, comprise just about 19395 taxa, which is about 7% of the described species in the world (Karthikeyan, 2000). The vast stretches of coastal knocking in south and high mountains species of Himalayas in the north provide a complex environmental set up or niches for plant and animals. It has resulted in the f ormation micro-endemic centres of plants in the country. The great heights and complex terrain of the Himalayan region, which change frequently, provide endless microclimatic conditions suitable to the species to grow and evolve. The Himalayas have more than 5 micro-endemic centres. Shiwalik ranges are mavin much(prenominal) mirco-endemic centre. roughly 125 wild relatives of go plants have been reported in the western Himalayas and Shiwaliks ranges are part of these. These ranges are among the youngest hills in the world and are active as well as fragile. Shiwalik hills of Punjab state have rich biological diversity and act as major inhering green belt of the state. The state is well cognize for agricultural produce and industries. But the degradational activity coupled with the destruction of woods in the name of developmental activities has altered the natural lendscape of the region to a great extent. It is facing threat for its very existence again from mankind in the name development. Because of these increased anthropogenic activities, as a result of population explosion and change in land use practices, the natural embellish has been modified which has resulted in atomisation of woodwind instruments with poor species composition. Hence the resulting landscape mosaic is a mixture of natural and human managed patches that vary in coat, shape and arrangement. none it is realized that we must move from the conservation of single species to scales beyond individual sites and levels of organization. Understanding landscape spatial pattern is tout ensemble-important(a) since it contains each(prenominal) levels of the biological hierarchy, from ecosystems to species and genes, which are targeted for biodiversity conservation.Remote sensing technology is organism widely utilize world over for the quick assessment of the public resources. Because it being a cost effective and repetitive in genius with synoptic passages technology, has endle ss application potentials. The technology assumes significance in equipment casualty of conservation of natural resources as it provides birds eye view of the ecosystems or landscapes or regions and their status, because conservation is now not limited to a plant or species but much beyond that. Vegetation is composed of several communities and these communities may occur in patches of small to large size and in dissimilar shapes. Vegetation composition of these patches is governed by several environmental factors, and there exists a relationship of the biological splendour with sector of the timberland and the influence of biotic factors. Ecologists have formal the relationship among these environmental and biotic factors with the biodiversity. Patches can be characterized base on their size, shape, location, sports stadium etc. in through geospatial simulate in Geographic Information Systems (GIS). Thus various factors can be simultaneously considered and processed in G IS.In this report, plant subject role out r severallyd from satellite selective information was considered as prime input signal for landscape bionomical analysis of forest ecosystem. Geographic Information System (GIS) is utilize to acquire landscape indices such as fragmentation, porosity, patchiness, patch tautness, interspersion and juxtaposition, which depict landscape characteristics. These indices were integrated with biotic pressure zones to depict flicker gradient in the learn arena. Phytosociological entropy accumulate from business line sampling was analyzed to derive species richness, biodiversity value and ecosystem uniqueness of various forest types. Ancillary databases such as propinquity from the roads/villages, terrain complexity etc. were derived in GIS domain. All to a higher place inputs were integrated in systematic manner by assigning germane(predicate) weightages to derive maps showing disturbance gradient and biological richness. The result ant maps highlighting areas that are biologically rich.2. Study flying range2.1 Physical Climatic placeThe study was carried out in the Shiwalik hills of Punjab state having geographic area of 9448.97 km2 and set in north western part of the state. It lies between latitude 30o 34 10.82 and 32o 33 02.96 N and longitude 74o 50 30.30 and 76o 52 51.26 E. It is broadly divided into fill in-mountainous Himalayas and the eastern and western alluvial plains. The important rivers draining the region are the Sutlej and the Beas. The add up annual rainfall varies between 400 to 600 mm and the mean annual temperature ranges from 22.500 C to 25.00 C.2.2 GeologyThe composition of the Shiwalik deposits shows they are nothing else than the alluvial detritus derived from the sub aerial waste of mountains, swept down by their numerous rivers and streams and deposited at their foot. This process was very much like what the existing river systems of the Himalayas are doing at present day on t heir emerging to the plains of Punjab. An important difference is that the spring alluvial deposits now making up the Shiwalik systems have been involved in the latest Himalayan systems of upheavals, by which they have been folded and elevated into their outer nigh foot-hills, although the oldest flood of many an different(prenominal) parts of northern India serves to bridge the gap between the newest Shiwaliks and the present alluvium.2.3 LithologyThe Shiwalik system is a great thickness of detrital rocks, such as coarsely bedded backbonestones, sand-rock, clay and conglomerates, measuring between 4,500 and 5,200 m in thickness. The bulge of formation is very closely similar to the materials constituting the modern alluvia of rivers. The lithology of the Shiwliks suggests their origin they are chiefly the water-worn debris of the granitic core of the central Himalaya, deposited in the long and broad valley of the Shiwaliks. The upper coarse conglomerates are the alluvial fans or talus-cones at the emergence of the mountain streams the great thickness of the clay and sand represents the silts and finer sediments of the river laid down in the lower plain. The weathering of the Shiwalik rocks has been proceeding at an extraordinally rapid rate since their deposition, and strictly abrupt forms of topography have been evolved in this comparatively picture period. Gigantic escarpments and dip-slopes separated by broad longitudinal surpass valleys and intersected by deep meandering ravines of the transverse streams-surface features, which are the most parking area elements of Shiwalik topography. The strike is remarkably constant in a Northwest-Southeast direction, with only brief local anaesthetic swerves, while it is almost always in strict elevations.3. gain Use PatternThe recorded forest area (including ironical broadleaf set off) of Shiwalik hills of Punjab state is 1599.42 km2, which constitutes 16.93% total geographic area. The major forest types are dry broad-leaved, wet broadleaf, dry broad-leafed chaparral and coniferous forest. The non-forest area such as agriculture, grassland, water body, canals, settlements, riverbed and barren land contributes 7849.55 km2 which constitutes 83.07% of the total geographical area.3.1 Vegetation type(a) Northern dry mixed broadleaf forest (5B/C2)In most localities the channelize canopy has been seriously overturned by human activities, results in scattered tree and small shrubs. This forest is reign by Acacia catechu, Anogeissus latifolia with the association of Lannea coromandalica, Aegle marmelos, Ehretia laevis, genus Mallotus philippensis, Nyctanthus arbor-tritis, Dendrocalamus strictus etc.(b) run dry bamboo stop (5E9)Only one species Dendrocalamus strictus occurs and forms relatively low brakes with a sprinkling of the tree and shrubs of dry broad-leaved forest such as Anogeissus latifolia, Lannea coromandelica etc.(c) ironic broadleaf scrub (DS1)A low broken soil c over of shrubby growth 3 to 6 m high including some tree species reduced to similar conditions, usually many stemmed from the base. The community is dominated by Woodfordia fruiticosa, Carrissa opaca, and Nyctanthus arbor-tristis with the some association genus Dodonaea viscosa, Aegle mormelos, Cassia fistula, and Acacia catechu.(d) Khair-Sissu forests (5/1S2)Dalbergia sissoo predominates in this association. The canopy is open associated with Acacia catechu. The honest-to-goodness woods have more or less definite under storey, which is mainly composed of young species and few species of Tamarix dioca, Acacia fernesiana, Cannabis sativa and grasses like Saccharum spontaneum, Erianthus munja etc.(e) Shiwalik chir languish forest (9/C1)The pine stands one by one or in groups with a scattered with lower broad-leaved tree story on the ridge and side slopes. There is usually a fairly continuous growth of xerophytic shrubs occurs as under-storey phytology. Pinus roxburghii is associat ed with Mallotus philippensis, Pyrus pashia, Syzygium cuminii, Albizzia chinensis, Acacia catechu, and Terminalia chebula.(f) Subtropical genus Euphorbia scrub (9/C1/DS2)Euphorbia royleana forms consociations sometimes of considerable extent. Their distribution is related to edaphic factors, notably dry rocky ridges, where biotic pressure has been high.4. addressBiodiversity characterization satellite remotely feel data is being employ for deriving botany cover type map. The vegetation type thus derived represents the habitats and their surroundings. These patches of the different forest types occur randomly as per the existing environmental conditions. Using landscape ecological principals these can be analyzed and quantified. Some of these parameters are fragmentation, porosity, juxtapositions, interspersion etc. and indices are derived to show their characteristics. Proximity of forests to road and villages and their carry on is established. All these layers are overlaid t o support disturbance index. Disturbance index image is the important for characterizing and identifying least or no disturbed areas (Fig. 1). demesne observations are taken through secern random sampling in all the forest types. Their economic uses have been found from literature. Total grandness Value (TIV) of each plant is established for its value for food, fuel wood, charcoal, timber, medicine etc. Ecosystem uniqueness is established from the inclination of the species found during survey based on its representativeness, speciesFig 1 Approach for Biodiversity mental picture at adorn Level UsingRemote detection and GIS (after Roy et al., 1998)endemism etc. Biological richness is obtained after integrating species richness, biological value, disturbance index, ecosystem uniqueness, terrain complexity.5. Materials and Methodology5.1 MaterialsFollowing satellite remote sensing data have been used for land cover and land use assortment of the area ( prorogue 1). card 1 Detail s of satellite data usedSatellite IDPathRowDateIRS-1D LISS III934812 Oct. 2000IRS-1D LISS III944803 Nov. 2000IRS-1D LISS III944903 Nov. 2000IRS-1D LISS III954931 Oct. 2000IRS-1D LISS III955031 Oct. 20005.2 Ancillary dataSurvey of India topo sheets on 150,000 have been used. Relevant literature on flora has been consulted.5.2 Vegetation Cover type mapping5.3.1 Preprocessing of satellite dataIRS-1D LISS-III data (Oct, 2000 and March, 2001) were used to prepare vegetation cover type map. A total five candidates were loaded and each scene was rectified with respect to 150,000 scale SOI toposheet (Total 32 toposheets were used, geometrically corrected and mosaicked to a single image). A second order work shift was followed. Average root mean square error within one pixel was maintained while preparing transformation model. Lambert Conformal Conic acoustic projection (LCC) was used during rectification of image (Fig. 2). Each rectifiedFig. 2 FCCscene was subjected to radiometric correct ion before mosaicing it to a single mosaic image. After descent of required area from this single mosaic image, it was subjected to Supervised upper limit likelihood mixture using the ground truth information hoard during the fieldwork.5.3.2 Ground truthingReconnaissance survey was carried out in the area to acquire the fellowship of the vegetation and other broad land uses. During reconnaissance information on the correlation of image elements with that of ground features was also obtained. Interpretation key was hypothesize and furcateification was performed.5.3.3 Vegetation ClassificationBased on the a priori cognition supervised classification method was followed. Training sites were selected and processed and the features with high classification accuracy were extracted. Using binary image the remaining area was extracted and unattended classification method was performed. The classified output was finally subjected hybrid classification shape up to prepare vegetation type map of the study area showing various vegetation types. The accuracy of the image was evaluated using field knowledge and the ground truth information. Along with the different types of forest, other public lands use / land cover classes were also classified so as to understand the landscape of the region. Following forest classes have been delineated and a comparison with Champion and Seths (1968) classifications scheme is stipulation below (Table 2).List of the land cover and land use classes identified on the satellite data.dampish deciduous forestDry deciduous forestDry deciduous scrub (Lantana)Coniferous forestGrass land grove/ lane treesAgricultureWater bodySettlementRiverbed/ perfect(a) landTable 2Vegetation classes compared With Champion Seths ClassificationSatellite based classification of vegetation typesChampion and Seth Classification (1968) moist deciduous forestDry bamboo brakesKhair-sissu forestDry deciduous forestNorthern dry mixed deciduous forestDry deciduo us forestDry deciduous scrubSubtropical EuphorbiascrubDry deciduous scrubPineShiwalik chirpine forest5.3 Field dataOne of the most important components of biodiversity characterization is the information on plants or species richness. Information on plant species is further processed for evaluating other parameters like Total wideness Value, Ecosystem Uniqueness, Biodiversity value etc. There it is important that well distributed enough adjudicate are taken for information on species occurrence. Classified vegetation cover type has been used for finding the attempt size. Sampling intensity of 0.021 % has been done. high sample intensity is adopted (than recommended) in view of variability in the area.5.4.1 Sampling designStratified Random sampling approach was followed and amount of sample points were distributed to its probability proportional to its size. Field data was collected from 74 sample points of 2020 m size during October 2000 (Table 3). The sample plans of 20x20m w ere used for tree species and nested approach and nested approach has been followed for laying sample plots of 10x10m for shrubs and 1x1m plot (five plots) for herbaceous layer.The data was collected on following parameters in each of the sample plot.Description of ecosystem and forest type including phenologySpecies name and number of individuals for every speciesGirth at white meat height in centimetersEconomic importance such as grazing, medicinal, human food, fuel, timber, charcoal and other uses such as industrial use, rope making, whipstitch leather etc. This importance value was collected by interviewing local people interviewing wherever possible and from literature.The data was analyzed for deriving various indices indicating biodiversity value, species richness and ecosystem uniqueness for different forest types.Table 3 The distribution of sample points in each of the forest typesfound in all the Shiwalik Hills of Punjab stateForest TypeNo. of sample plotsMoist deciduous 32Dry deciduous31Deciduous scrub7Pine forest4Total74Database of all the species collected was created in MS Excel for further processing, details have been provided in the section on phytosociological analysis.6. Database Creation in GISIn geo-spatial analysis desegregation of spatial and non-spatial data or vector data is important. As discussed ahead the biotic disturbance had played a very significant situation in existing biodiversity of toady. Database in GIS domain provides opportunity to analyze their impact zones. Therefore, the following maps were digitized from ancillary sources for their integrationVillage locations point and polygon features) course and railway networksContour lines with 20m intervalsThe road and settlement maps were used as input in further analysis for deriving disturbance gradient. Contour map was used to prepare digital terrain model using ERDAS IMAGINE 8.4 software.7. Landscape AnalysisThe approaches for biodiversity characterization discussed in the literature contains several broad categories such as genetically based approach, species based approach, ecosystem based approach, and integrative approach. The approach adopted in present study is integrative method that includes significance of ecological, social, and cultural factors to the biodiversity in addition to biological factors. The approach used for the study focuses on following aspectsRapid assessment for monitoring of biodiversity loss and/or gainMapping of biological richness to understand its spatial nature, that helps in planning and executionThe customized big money Bio_CAP is developed at Indian show of Remote Sensing, Dehradun to carry out multi-criteria spatial analysis. The satellite data provide key input i.e. vegetation type, which is used for deriving several landscape indices (fragmentation, porosity, patchiness, interspersion, and juxtaposition) depicting status of forest ecosystem. Ancillary database on roads and settlements has been used to prep are propinquity buffer map and contour map is used to prepare terrain complexity map. All these parameters were integrated together with the field data on species richness, ecosystem uniqueness and biodiversity value. The ultimate result is the map that depicts areas categorized as per disturbance index.7.1 Landscape analysis using Bio_CAPThe field data, vegetation type map and ancillary GIS data (roads, village locations, and contour) were analyzed using Bio_CAP (Biodiversity Characterization Programme) a customized package to prepare various indices depicting landscape characteristics. fragmentation has been the major cause of biodiversity loss and has been measured as a number of forest and non-forest patches in per unit area.Patchiness is a measure of the density of patches of all forest types or number of clusters in a given affect or area.Porosity is a measure of number of patches or density of patches within a particular type vegetation, normally primary vegetation type(s), regardless of patch size.Interspersion is a count of dissimilar neighbour pixels (feature) with respect to central pixel (feature) of a particular grid or measurement of the spatial intermixing of the vegetation types.Juxtaposition is a measure of proximity and adjacency of two or more vegetation types. Higher weightage is given to the classes who share or are likely to share more boundary. forgiving influence zone is dependent on socio-economic set-up of the area/region and proximity the forest resources and can vary from 0.5 km to 5 km or even more. Proximity buffer or zone of influence from the roads and human settlements has been prepared.7.2 Disturbance IndexDisturbance has direct impact on the occurrence of plants and animals or biodiversity. Disturbance regimes provide an insight into the impacted area and its degree of impact under various vegetation or other natural resources. Disturbance Index has been considered here as a function of fragmentation, porosity, patchiness, interspersion, juxtaposition and influence zones or distance for the source. The analysis has been performed in the customized GIS package called Bio-CAP for this purpose.7.3 Biological RichnessBiological forms of any area reflect the environmental conditions supporting the growth and evolution. Recently emphasis has been to look at the ecosystems (micro-climatic variations) or landscape diversity and its utility for conservation rather than one species. Therefore, the biological richness here has been considered as a function of ecosystem uniqueness, biodiversity value, species richness, Terrain complexity (computed through DTM by determining variance in DTM values) and most importantly disturbance index. The details of these parameters have been discussed elsewhere (Roy et al., 1999).8. Observation Highlights8.1 Vegetation Classification crisscross approach has been followed to do the digital classification of the data set (Fig. 3). Table 4 summarizes the results of classification in the region. Forest types viz., moist deciduous, dry deciduous, pine and dry deciduous scrub together constitute about 1404.06 Km, which is about 14.65 per cent of the total geographical area of the region. Non-forest classes such as agriculture, plantation, riverbed, barren land, settlement, grassland and water body makes up about 85.35 per cent of the geographical area. Amongst the forests, dry deciduous forest hasFig.3 classified mapwide distribution in the region from Chandigarh to Pathankot and covers an area of 775.85 Km. Dry deciduous scrub is the next dominant forest type of the region which is mainly be with Lantana scrub distributed throughout the region and then followed by moist deciduous forest found in Dhar, Pathankot, Dholba, Talwara, Nangal, Noorpur in a fragmented patches. And coniferous forest covers an area of 6.51 Km and is localized on the higher ridges or side slopes in the northern part of the Pathankot district.Table 4Area under different Land cover / lan d use classes in the regionLand use / cover classArea in km2Moist deciduous forest276.46Dry deciduous forest775.85Dry deciduous scrub (Lantana)345.24Coniferous forest6.51Grass land38.24Plantation/Avenue trees211.04Agriculture7443.22Water body78.94Settlement178.46Riverbed/Barren land238.19Total9592.159. Phyto-sociological analysisPhytosociological analysis was carried out to understand the floristic and vegetation pattern in the region. For the phytosociological analysis the vegetation types were grouped into five major types. Based on the species area curves developed initially an optimized field plots size of 2020 m was adopted uniformly for all the types. In each plot all the species names height, girth, herbs and shrubs were recorded. The phytosociological database was created and computed the basic structural parameters viz. frequency, basal area and density. Utilizing these parameters the importance value index (IVI) was calculated for all the types (Annexure-II).Fig.4 Graphica l creation of Land use/land cover types and theirDistribution.9.1 Species richness (Shannon- weaver Index)Species richness can be described as the number of the species in a sample or habitat per unit area. Higher the value greater the species richness. Species richness (Shannon Weaver Index) was measured using importance value index (Table 5, 6). Dry deciduous forest shows highest diversity (3.5361) with total number of 363 species followed by moist deciduous (3.0959) with moist deciduous forests then dry deciduous scrub (2.2666) having 77 species and coniferous forest shows least diversity (1.6207) with 58 species (Fig. 5).Table 5 Biodiversity status in the Shiwalik hills of Punjab stateForest TypeNo. ofFamiliesNo. of SpeciesTotal no. ofSpeciesTotal Importance ValueTreesShrubsHerbsMoist deciduous3642249516110.46Dry deciduous311417514736310.53Deciduous scrub2571258779.75Pine1171536588.01Table 6 Forest type wise Shannon Weaver Index in the Shiwalik hills ofPunjab stateForest TypeAv erage ultra Area (m2)Shannon WeaverIndex SWI (H)Moist deciduous38.4123.0959Dry deciduous22.9483.5361Deciduous scrub8.1332.2666Pine6.531.62079.2 Economically principal(prenominal) SpeciesEconomically Important plants are the species, which have social and economic value. In the Shiwalik hills of Punjab state 240 economically important plants were recorded. The total importance value (TIV) for each species was calculated considering 10 important uses. The parameters considered are (1). Food (2). furnish (3). Fodder (4). Fiber (5). step (6). Medicinal (7). Oil (8). Gums/Resins (9). tannic acid and (10). Others. These 10 parameters have been weighted for a scale of 1 to 10 wherein maximum value represents highest economic value. Maximum total importance value was observed in dry deciduous type (TIV of 10.53) and coniferous type has the least value (TIV of 8.01) (Table 7). Some of the economically important species are Acacia catechu, Achyranthes aspera, Adhatoda zeylanica, Ageratum conyzoides, Azadiracta indica, Cannabis sativa, Moringa oleifera, etc. List of 232 economically important species and their uses were given in the Annexure II.Fig 5 Species distribution in each habit typeTable 7 Total Importance Value of different vegetation typesForest TypeTIV %Moist deciduous10.46Dry deciduous10.53Deciduous scrub9.75Pine8.019.3 Medicinal PlantsAbout 132 medicinally important species have been recorded during the sampling. Medicinal usage of these plants occurring in Shiwalik hills of Punjab have been compiled from available literature sources. Some of the important medicinaly important plants are Adhatoda zeylanica, Aegle marmelos, Azadirachta indica, Bacopa monnieri, Cordia dichotoma, Terminlaia chebula, Terminalia bellirica etc. and the list has bee furnished (Annexure.IV). Table 8 provide overview of the per cent utile species.Table 8 Percent utilizable species for Total Importance value (TIV)Forest typeUSESFoodFuelFodderFiberTimberMedicinalOilGums/ ResinTanni nOthersDD11.150.799.099.810.231.665.023.55.189.83MD12.72.366.947.912.632.10.650.861.38.45DS10.052.219.069.319.5531.616.373.186.618.09PN008.520020.780002.35Total33.95.3633.6127.0222.35116.1512.047.5413.0928.729.4 Ecological importanceThe species recorded during the field data collection were screened for their uniqueness with help of RED DATA hand (Anonymous, 1987, 1988, 1990) and many other references. All the species recorded were abundant in nature. However, two species were found to be rare, viz., Delphinium danudatum Wall. ex HK.f.Th and Peristylus constrictus (Lindl.) Lindl.10. Results of Landscape analysis10.1 FragmentationIncreasing anthropogenic activities created discontinuity in the natural vegetation cover gets fragmented and the class becomes porous. Thus, fragmentation analysis of a land use class is an important landscape characteristic, which defines the status of that class in the present day context. Among all the characteristics of the landscape, fragmentation is more significant. Hence, the results of fragmentation are being discussed. For analysis of fragmentation in the forest, the vegetation map was reclassified as forest and non-forest classes, which resulted in a new spatial layer. A grid cel