Dynamics of the wetland ecosystem health in urban and rural settings in high altitude ecoregion.

The focus of the present study was to assess the dynamics of wetland ecosystem health in both urban and rural settings situated in the high-altitude Kashmir Himalayan ecoregion. The basic aim was to identify the drivers responsible for wetland degradation in order to sustain ecosystem services effectively. To achieve this, we examined water quality, trophic status, fish species diversity and human disturbances by analyzing changes in land use and land cover (LULC) since 1980. For the limnological characterization of the two wetlands, we evaluated a total of 21 physico-chemical parameters at 24 sites. Two-way analysis of variance revealed significant (p < 0.05) spatial and temporal variability in the water quality parameters. The trophic state index values of 67.7 and 76.7 indicated that the rural and urban wetlands were in eutrophic and hypertrophic status, respectively, signifying potential environmental stress. The data on fish fauna indicated a decline in fish species over the past 40 years, particularly the schizothoracine species. Urban wetlands showed a more significant decrease in species (06) compared to rural wetlands (01). LULC mapping and change analysis employing the visual interpretation technique showed significant transformations in the immediate catchment of wetlands. Substantial growth in the built-up (433.2 % and 2620 %) and decrease in aquatic vegetation (-83.4 % and - 97.5 %) in the immediate catchment was recorded in both the urban and rural wetlands respectively from 1980 to 2020. Our findings demonstrated a relationship between LULC classes and water quality parameters, with an increase in built-up and road areas showing a significant positive correlation with the rise in decadal mean values of total phosphorus, orthophosphorus, nitrate nitrogen, ammonical nitrogen, and calcium content. Based on these observations, we concluded that changes in land use and land cover within the immediate catchment areas of the wetlands were the primary drivers responsible for the deterioration of wetland ecosystem health.

TLR-2 Germ Line Variants as a Risk for Obesity in Local Pakistani Population.

BACKGROUND: Obesity is increasing rapidly affecting half billion adult's population. Pathophysiology of obesity involves low grade inflammation sustained by Toll like receptor 2 (TLR-2) the innate immune adapters. This study was conducted for detection and association of TLR-2 gene mutations with obesity. METHODS: In this case-control study 228 individuals with obesity and 228 controls were enrolled based on Body Mass Index (BMI) ≥25 and 18-24 kg/m2 respectively. The variations in TLR-2 gene were detected by Sanger sequencing. These identified TLR-2 variants were further analyzed in silico for change in miRNA binding and mRNA strucutre. RESULTS: Four novel single base substitutions (153688371 T >C, 153702295 T >C, 153703504 T >C and 153705074 C >A) were identified in exon 3 and 4 of TLR-2 gene affecting splice site and poly-A tail. The genotypic and allelic frequencies of the variants were strongly associated with increasing obesity susceptibility. Only variant 153703504 T >C was significantly associated with preobesity. Despite variations in gene sequence, no change in miRNA binding except for variant 153688371 T >C of Exon 3 where a novel binding site for hsa-miR-4523 was created. Furthermore, mRNA stability and secondary structure were also compromised in identified variants. CONCLUSION: All detected variants of TLR-2 gene were significantly associated with and posed risk for development of obesity. Furthermore, in silico analysis revealed generation of new miRNA (hsa-miR-4523) binding site and change in mRNA structure/stability which needs to be further investigated for possible role in altering TLR-2 gene regulation/expression in obesity.