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All Journal International Journal of Economic, Business, Accounting, Agriculture Management and Sharia Administration (IJEBAS) International Review of Practical Innovation, Technology and Green Energy (IRPITAGE) MEDALION JOURNAL: Medical Research, Nursing, Health and Midwife Participation
Faisal Abass Padder
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Humanities Dentistry Economics, Econometrics & Finance Energy Health Professions Medicine & Pharmacology Nursing Public Health Social Sciences Veterinary Other

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THE MAIN PROTOCOL AND OTHER IDENTIFIED STRATEGIES TO ADDRESS CLIMATE CHANGE & ITS IMPACT ON HEALTH Faisal Abass Padder; Asif Bashir; Shabir Ahmad Dar
International Journal of Economic, Business, Accounting, Agriculture Management and Sharia Administration (IJEBAS) Vol. 3 No. 2 (2023): April
Publisher : CV. Radja Publika

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.54443/ijebas.v3i2.735

Abstract

Climate change is a global crisis that has a direct impact on human health. Rising temperatures, extreme weather events, and changes in precipitation patterns are affecting the health of individuals, communities, and ecosystems worldwide. To address this challenge, a protocol and strategies have been identified that aim to mitigate the impact of climate change on health. The main protocol involves reducing greenhouse gas emissions through the adoption of cleaner and renewable energy sources, improving energy efficiency, and sustainable transport. Other strategies include enhancing public awareness, building climate-resilient communities, promoting sustainable agriculture, and improving health systems' preparedness for climate-related emergencies. Implementation of these measures can help reduce the risk of climate-related health problems such as heat stress, respiratory illnesses, and vector-borne diseases. The protocol and strategies identified provide a roadmap for governments, organizations, and individuals to take action against climate change and protect the health of the planet and its inhabitants.
HARNESSING ELECTRICAL RESISTIVITY FOR PRECISION AGRICULTURE: ADVANCES AND CHALLENGES IN GEOPHYSICAL APPROACHES FOR SOIL AND WATER OPTIMIZATION Asif Bashir; Faisal Abass Padder; Amir Arshid; Dheerja Samadder
International Journal of Economic, Business, Accounting, Agriculture Management and Sharia Administration (IJEBAS) Vol. 5 No. 1 (2025): February
Publisher : CV. Radja Publika

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.54443/ijebas.v5i1.2432

Abstract

The integration of resistivity methodologies in agricultural sciences has emerged as an indispensable tool for optimizing soil characterization, moisture assessment, and salinity management. Electrical resistivity techniques, including Electrical Resistivity Tomography (ERT) and Electromagnetic Induction (EMI), offer profound insights into subsurface heterogeneities, facilitating data-driven precision agriculture. The application of resistivity surveys enables real-time evaluation of soil hydrodynamics, enhancing irrigation efficiency and mitigating excessive water usage. Additionally, resistivity-based mapping delineates salinity gradients, aiding in the formulation of targeted soil remediation strategies. However, the precision of these techniques is often impeded by inherent soil variability, mineralogical composition, and external environmental fluctuations. Despite the sophisticated advancements in geophysical instrumentation, challenges persist regarding cost-effectiveness, accessibility for small-scale agrarian communities, and the integration of resistivity data with contemporary remote sensing and artificial intelligence frameworks. Addressing these challenges necessitates a multidisciplinary approach that amalgamates geophysics, agronomy, and computational analytics to refine predictive modeling capabilities. This review systematically evaluates the state-of-the-art resistivity applications in agriculture, synthesizing global research advancements to delineate their efficacy and limitations. Furthermore, it underscores the imperative need for technological refinements that enhance user accessibility and operational feasibility. By bridging the existing knowledge gaps, future research endeavors must prioritize scalable and economically viable resistivity-based solutions, ensuring their practical deployment in sustainable agricultural.
Co-Authors Amir Arshid Asif Bashir Dheerja Samadder Naser Hassan Rather Shabir Ahmad Dar