Pakistan contains numerous domestic goat breeds, but until now there has been no comprehensive study on genetic diversity or a phylogenetic analysis of Pakistani goats. In this study, we analysed the complete mitochondrial DNA D-loop and the cytochrome b gene of 13 Pakistani domestic goat breeds (Capra hircus) and one wild goat, the Sindh Ibex (Capra aegagrus blythi). The phylogenetic analyses and sequence divergence (SD) established four distinct mt-lineages termed as A, B and C (previously reported) and a new lineage D. The Sindh Ibex appeared as an outgroup of domestic goats. The estimated divergence times between the most recently evolved mt-lineages A and D were from 260,483 to 371,052 YA. This suggested that at least four different strains of wild Capra might have been the source of the modern domestic goats. The new mt-lineage D revealed high SD from mt-lineage A and may be the oldest branch under domestication, while mt-lineages B and C showed lower SD and might have been domesticated during an advanced stage of the domestication process.
Abstract. Owed to their enormous impact on the sustainable development of energy security, climate change, and the economy, multiple renewable-energy projects are carried out around the world, both in developed and in developing countries. Since the construction of renewable energy project is an entrepreneurial activity, there is a big concern about the success of such projects. Although pertinent literature suggests several methodologies to enhance the success of various projects, renewable-energy projects are still overlooked. This study identifies multiple critical success factors (CSFs), required for renewable-energy projects. Using a sample of 272 firms working on renewable energy projects in Pakistan, a quantitative and causal study was undertaken to identify the critical success factors (CSFs). Structural equation modeling (SEM) was applied to test and verify hypothesis. The results show that there is a strong direct dependency of project success over the proposed factors, however environmental factors are found to be the only predominant CSFs which show the significant indirect effect on project success. The study expected to contribute towards and widen up the existing knowledge base for the project performance of renewable energy projects by adding on the findings regarding critical success factors.
Microplastic pollution is becoming an increasingly severe environmental problem. As compared to the marine ecosystem, freshwater ecosystems at high-altitude, remote regions are less studied and lag far behind. Thus, the present study aims to highlight this issue and fill the gap in this regard. The presence of microplastics (MPs) in the surface water and the gastrointestinal tracts (GITs) of brown trout (Salmo trutta) from Lake Mahodand, Kalam Swat, Pakistan, at a high altitude of 2865 m above sea level was investigated. For microplastic extraction, samples were digested with H2O2, NaCl solution was added for density separation, and then samples were filtered with a cellulose nitrate filter (pore size 0.45 µ). After this, visual observation and polymer detection with Fourier transform infrared spectroscopy, microplastics were characterized by their shapes, sizes, colors, and polymer types. In the surface water sample, MP particles were found in the range of 0–5 MPs/L, where the mean concentration of MPs was 2.3 ± 1.52 MPs/L and 1.7 ± 1.05 MPs/gastrointestinal tract (GIT) isolated from the GIT of brown trout. Particles of relatively larger size (500–300 µm) were more abundant than other ranges of particles (300–150 and 150–50 µm) in the surface water and fish samples. The fiber was the most abundant shape of MP particles, followed by sheets and fragments in surface water and fish samples (fibers > sheets > fragments). Four types of polymer viz. low-density polyethylene (LDPE) (44.4%), polypropylene homopolymer (PPH) (19.4%), polyvinyl chloride (PVC) (30.5%), and high-density polyethylene (HDPE) (5.5%) were detected by FTIR spectroscopy. The findings of the present study showed that MPs reached into higher altitudes in remote areas due to tourism activities.
Complete mitochondrial DNA (mtDNA) control region of 30 Pakistani domestic goats was sequenced to investigate the genetic diversity and organization. Twenty‐two new haplotypes were observed and all were classified into mt‐lineage A. Phylogenetic analysis revealed two distinct clusters in mt‐lineage A, A1 and A2. A 17 bp deletion and a 76 bp insertion were detected in the L‐domain and observed 10 and one animals, respectively, in 232 Pakistani domestic goats. These remarkable deletion/insertion events would be useful to investigate mtDNA diversity within the highly divergent mt‐lineage A. In analysis of the control region feature, the caprine mtDNA was A/T rich as observed for other artiodactyls. Four conserved regions, Block A in the L domain, the C‐domain, Block B and CSB1 in the R domain, were defined as well as in the other species.
Microplastics (MPs) are an emerging environmental health concern due to their widespread occurrence in food sources such as fish, meat, chicken, honey, sugar, salt, tea and drinking water, thereby posing possible risks to human health. This study aimed to observe the existence of MPs in the crop and gizzard of the farm chicken, a significant food source in Pakistan. Twenty-four chicken samples were taken from eight poultry farms across Punjab, Pakistan. A total of 1227 MP particles were found from 24 samples (crop and gizzards) originating from the 8 poultry farms. In all, 429 MP particles were found in 24 chicken crops, with a mean of 17.8 ± 12.1 MPs/crop. In contrast, 798 MP particles were found in 24 chicken gizzards, with a mean of 33.25 ± 17.8 MPs/gizzard. Comparatively larger particles, ranging between 300–500 µm, were more abundant (63%) than other considered sizes (300–150 µm [21%] and 150–50 µm [16%]). Additionally, fragments were the dominant type of shape in both sample types (crop [64%] and gizzard [53%]). The predominant colours of particles extracted from gizzards and crops were yellow (32%) and red (32%), respectively. Chemical characterisation of these particles detected four types of polymers: polyvinyl chloride (PVC) at 51.2%, followed by low-density polyethylene (LDPE) at 30.7%, polystyrene (PS) at 13.6% and polypropylene homopolymer (PPH) at 4.5%. In conclusion, we provide evidence for MPs in the gizzards and crops of farmed chickens which may originate from contaminated poultry feed. Only a few studies have been reported globally to assess MPs ingestion in chickens. The current study is the first report from Pakistan. It could be a valuable addition to support MPs literature to establish a relationship between MPs contamination and intake through the food chain.
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