Abstract:
The current work was executed in Upper Tanawal which is situated in the mid
of Western fragment of lesser Himalaya. The study area is situated between
34°.34.40´ N to 34°.48.88´ N latitude and 72°.84.27´ E to 73°.10.50´ E longitude.
Upper Tanawal is rich in biodiversity. (Farooq et al., 2017). This Area of
Himalaya has been unexplored for botanical researches due to its remoteness
as well as poor law and order conditions.
Upper Tanawal also called feudal Tanawal is a territory found in the mid of
western part of Hazara division. On its west lies Bhadanak tract of District
Haripur; on its west lies River Indus, on North found Tor Ghar (Black
Mountain) and Agror Valley and on its East, it is bounded by areas of Pakhal
valley and parts of District Abbottabad. (Watson,1907)
In British India, upper Tanawal consisted of two states i.e. Amb and Phulra.
Amb being the major state constituted about 85 % of the area while Phulra had
15 % of the total land. At present upper Tanawal consists of ten union councils
of tehsils Mansehra and Oghi of district Mansehra. (Watson 1907, Farooq, et al.,
2017)
During this study the area was extensively visited and appraised during
January 2014- December 2016 for phytosociological data collection using
quadrate method. Using species-area curve technique size of the quadrate was
determined. Size of quadrate was 100 m2, 10 m2 and 1 m2 for trees, shrubs and
herbs respectively. Plants were collected, preserved, identified and submitted with herbarium Hazara University Mansehra. Results reflect that Upper
Tanawal hosts 308 plant species of tracheophytes belonging to 243 genera
placed in 92 tree families. Asteraceae and Leguminosae were found to be the
dominant families represented by 26 species each. Rosaceae was represented
by 21 species, Poaceae by 19, Lamiaceae by 15, Brassicaceae by 8,
Euphorbiaceae, Pteridaceae, and Moraceae with seven species each. On the
basis of habit plants of the study area were divided into three classes i.e. Herbs,
shrubs and trees. The vegetation was dominated by herbs as 202(66%) species
showed herbaceous habit. Trees habit was shown by 59(19 %) species. As far as
shrubs are concerned 47(15%) species fell in this catagory.
According to the Raunkiaer’s life form classification therophyte was dominant
life form class represented by 135 species. Megaphanerophytes were
represented by 58 species, Hemicryptophytes were represented by 49 species,
nanophanerophytes contributed by 45while geophytes by 21 species.
According to leaf size spectrum classification Microphylls were represented by
158 species, followed by mesophylls represented by 116 plant species.
Nanophylls, megaphylls and Leptophylls were represented by 22, 10 and 16
species respectively.
For detailed ordination of phytosociological data PAST-3 software was used
and CCA and DCA plots were drawn. These ordination techniques showed
arrangement of data along environmental gradients. DCA and CCA analyses
established that altitude, temperature, aspect and soil pH are the strongest
environmental drivers responsible for plant species clustering and association formation. In CCA tri-plot species and samples aggregation established
interaction among species, samples and environmental variables.
For classification of samples to plant communities, PC-ORD software used and
by TWINSPAN method 32 plant communities were formed. These plant
communities were falling in two vegetational zones of Pakistan i.e. subtropical
zone and moist temperate zone.