ABSTRACT
Water security is at stake today. While climate changes influence water availability, urbanization and agricultural activities have led to increasing water demand as well as pollution, limiting safe water use. We conducted a global assessment of future clean-water scarcity for 2050s by adding the water pollution aspect to the classical water quantity-induced scarcity assessments. This was done for >10,000 sub-basins focusing on nitrogen pollution in rivers by integrating land-system, hydrological and water quality models. We found that water pollution aggravates water scarcity in >2000 sub-basins worldwide. The number of sub-basins with water scarcity triples due to future nitrogen pollution worldwide. In 2010, 984 sub-basins are classified as water scarce when considering only quantity-induced scarcity, while 2517 sub-basins are affected by quantity & quality-induced scarcity. This number even increases to 3061 sub-basins in the worst case scenario in 2050. This aggravation means an extra 40 million km2 of basin area and 3 billion more people that may potentially face water scarcity in 2050. Our results stress the urgent need to address water quality in future water management policies for the Sustainable Development Goals.
ABSTRACT
Climate change affects the spread of waterborne infectious diseases, yet research on vulnerability to outbreaks remains limited. This integrative review examines how climate variables (temperature and precipitation) relate to human vulnerability factors in Pakistan. By 2060, mean temperatures are projected to rise from 21.68°C (2021) to 30°C, with relatively stable precipitation. The epidemiological investigation in Pakistan identified Diarrhea (119,000 cases/year), Malaria (2.6 million cases/year), and Hepatitis (A and E) as the most prevalent infections. This research highlighted vulnerability factors, including poverty (52% of the population), illiteracy (59% of the population), limited healthcare accessibility (55% of the population), malnutrition (38% of the population), dietary challenges (48% of the population), as well as exposure to water pollution (80% of the population) and air pollution (55% of the population). The findings suggest that the coordinated strategies are vital across health, environmental, meteorological, and social sectors, considering climatic variability patterns and population vulnerability determinants.
ABSTRACT
This study focuses on examining the role of leaders' Five-Factor Model (FFM) personality traits in their mentoring quality and mentees' job satisfaction. It has also examined how leaders' mentoring quality impacts mentees' job satisfaction, leading to their job performance at the workplace. The study used an explanatory research methodology to determine the cause-and-effect relationship between mentors' FFM personality characteristics, mentoring quality, and mentees' job satisfaction and job performance. The study was based on path-goal theory and the Big Five-Factor Model of personality characteristics, and a questionnaire was utilized to collect information on the model's constructs. Following the non-probability convenience sampling technique, the empirical data were collected from the academic and non-academic staff of public and private higher education institutions (HEIs) located within Pakistan on five-point Likert scale. The proposed hypotheses were tested by using PLS software. Four main conclusions were derived from this study. First, the leaders' openness to new experiences, agreeableness, and emotional stability substantially influenced the mentees' job satisfaction. Surprisingly, the leaders' conscientiousness and extraversion qualities did not affect the job satisfaction of the mentees. Second, the findings demonstrated that the openness to experience, conscientiousness, and extroversion has a considerable influence on leaders' mentoring quality, but agreeableness and emotional stability have a negligible impact. Third, the mentoring quality of the leader had a substantial effect on the job satisfaction and work performance of the mentees. Fourth, this study confirmed the belief that mentees' job satisfaction has a favorable influence on their job performance within the context of Pakistan's educational sector. The current study's findings provided valuable insights to the educational institutions about which personality traits they need to foster in their leaders, making them an excellent leader to enhance their mentees' job satisfaction and job performance within their organizational settings.
ABSTRACT
Worldwide surface waters suffer from the presence of nitrogen (N) compounds causing eutrophication and deterioration of the water quality. Despite many Europe-wide legislation's, we still observe high N levels across many water bodies in Europe. Information on long-term annual soil N surplus is needed to better understand these N levels and inform future management strategies. Here, we reconstructed and analysed the annual long-term N surplus for both agricultural and non-agricultural soils across Europe at a 5 arcmin (≈10 km at the equator) spatial resolution for more than a century (1850-2019). The dataset consists of 16 N surplus estimates that account for the uncertainties resulting from input data sources and methodological choices in major components of the N surplus. We documented the consistency and plausibility of our estimates by comparing them with previous studies and discussed about possible avenues for further improvements. Importantly, our dataset offers the flexibility of aggregating the N surplus at any spatial scale of relevance to support water and land management strategies.
ABSTRACT
Soil chromium toxicity usually caused by the tannery effluent compromises the environment and causes serious health hazards. The microbial role in strengthening biochar for its soil chromium immobilization remains largely unknown. Hence, this study evaluated the effectiveness of zinc and iron-enriched rice husk biochar (ZnBC and FeBC) with microbial combinations to facilitate the chromium immobilization in sandy loam soil. We performed morphological and molecular characterization of fungal [Trichoderma harzianum (F1), Trichoderma viride (F2)] and bacterial [Pseudomonas fluorescence (B1), Bacillus subtilis (B2)] species before their application as soil ameliorants. There were twenty-five treatments having ZnBC and FeBC @ 1.5 and 3% inoculated with bacterial and fungal isolates parallel to wastewater in triplicates. The soil analyses were conducted in three intervals each after 20, 30, and 40 days. The combination of FeBC 3%+F2 reduced the soil DTPA-extractable chromium by 96.8% after 40 days of incubation (DAI) relative to wastewater. Similarly, 92.81% reduction in chromium concentration was achieved through ZnBC 3%+B1 after 40 DAI compared to wastewater. Under the respective treatments, soil Cr(VI) retention trend increased with time such as 40 > 30 > 20 DAI. Langmuir adsorption isotherm verified the highest chromium adsorption capacity (41.6 mg g-1) with FeBC 3% at 40 DAI. Likewise, principal component analysis (PCA) and heat map disclosed electrical conductivity-chromium positive, while cation exchange capacity-chromium and pH-organic matter negative correlations. PCA suggested the ZnBC-bacterial while FeBC-fungal combinations as effective Cr(VI) immobilizers with >70% data variance at 40 DAI. Overall, the study showed that microbes + ZnBC/FeBC resulted in low pH, high OM, and CEC, which ultimately played a role in maximum Cr(VI) adsorption from wastewater applied to the soil. The study also revealed the interrelation and alternations in soil dynamics with pollution control treatments. Based on primitive soil characteristics such as soil metal concentration, its acidity, and alkalinity, the selection criteria can be set for treatments application to regulate the soil properties. Additionally, FeBC with Trichoderma viride should be tested on the field scale to remediate the Cr(VI) toxicity.
ABSTRACT
The water scarcity and energy crises are major challenges, particularly for South Asian developing countries. Wastewater resource recovery always remained an untapped potential for South Asian countries, especially in Pakistan. Globally, municipal wastewater's global generation rate is about 331 km3/year; only a small proportion is treated and safely reused. Wastewater also has high energy content and can be greatly productive, whereas most of the wastewater treatment plants currently employed in developing regions are non-functional or taking high energy inputs. Many global level studies are being conducted for energy use reduction and the production of renewable energy from wastewater. In this review, installation of wastewater treatment plants is suggested in the context of economic and environmental feasibility for South Asian developing countries. Multiple factors showed the need for and high potential to installation of wastewater treatment plants for providing clean water under sustainable development goals and further to recover valuable contents from municipal wastewater. The tremendous need for infrastructure development became obvious to deliver clean water to communities that are using wastewater directly or indirectly for various purposes. Based on technical grounds, economic, social, and environmental challenges can be tackled with viable wastewater treatment plant design options in each country context. With each step of wastewater treatment, control strategies would minimize energy use and enhanced resource recovery will reduce pressure on the current natural resource base. Overall, the cost assessment, funding opportunities, research and development, and social acceptability remained the big factors to energy generation from municipal wastewater in South Asia. Graphical presentation of the study.
