SUSTAINABLE GROUNDWATER MANAGEMENT THROUGH GROUNDWATER IRRIGATION ADVISORY APPLICATION (GIAA)


Muhammad Mohsin Waqas

DOI: 10.26480/bda.01.2024.54.65

ABSTRACT
With the global population surpassing 7.9 billion, sustaining food production poses a formidable challenge, heavily reliant on groundwater for irrigation, particularly in regions with limited surface water. Concerns over groundwater sustainability are mounting as agricultural dependence grows, highlighting the need for robust management strategies to ensure long-term viability. The unchecked extraction of groundwater poses a threat to agricultural productivity, as excessive withdrawal leads to aquifer depletion and reduced water availability for irrigation. Numerous studies, including those conducted by organizations like the Food and Agriculture Organization (FAO) and the World Bank, underscore the detrimental effects of over-extraction on crop yields, food security, and agricultural expansion efforts. Furthermore, the depletion of groundwater exacerbates water scarcity, driving up food prices and jeopardizing dietary diversity and nutritional intake. Despite these challenges, groundwater remains indispensable for global food security, supporting approximately 60% of irrigated agriculture worldwide. In regions susceptible to climate variations and water scarcity, groundwater serves as a reliable irrigation source, enabling year-round crop cultivation and sustaining livelihoods. However, sustainable groundwater management is imperative to mitigate the risks of over-extraction, aquifer depletion, and environmental degradation. Pakistan exemplifies the intricate relationship between groundwater and agricultural sustainability. The nation’s irrigation system heavily relies on diverse water resources, including the Indus River System and groundwater extracted through tube wells. While these resources bolster agricultural productivity and contribute significantly to the economy, challenges such as water scarcity and inefficient usage threaten their sustainability. Addressing these challenges requires a concerted effort to implement sustainable water management practices, enhance infrastructure, and mitigate the impacts of climate change. Amidst these challenges, the development of the Groundwater Irrigation Advisory Application (GIAA) emerges as a potential solution. By providing real-time groundwater monitoring, tailored irrigation schedules, and educational support, GIAA empowers farmers to make informed decisions regarding water usage, ultimately contributing to sustainable groundwater management and global food security. However, the successful implementation of GIAA necessitates collaboration among stakeholders, continuous updates, and a commitment to integrating new features and technological advancements. In this context, this paper explores the development, functionality, and potential impact of GIAA on sustainable groundwater management, agricultural productivity, and food security. Through a comprehensive analysis of its features, benefits, and limitations, this study aims to elucidate the role of GIAA in safeguarding groundwater resources and ensuring the resilience of agricultural systems in an era of increasing water scarcity and climate uncertainty.

KEYWORDS
Groundwater Irrigation Advisory, Water Scarcity, Sustainability, SDGs