Review of Climate-Resilient Agriculture for Ensuring Food Security: Sustainability Opportunities and Challenges of India

Environmental and Sustainability Indicators, Journal Year: 2024, Volume and Issue: 25, P. 100544 - 100544

Published: Nov. 28, 2024

Language: Английский

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Genomics and morphometry of herbarium specimens elucidate the origin of the Cape Verde date palm (Phoenix atlantica A.Chev.) and highlight its agronomic potential

Plants People Planet, Journal Year: 2025, Volume and Issue: unknown

Published: Feb. 11, 2025

Societal Impact Statement As climate change accelerates, breeding resilient crops is urgent. The date palm ( Phoenix dactylifera L.), a crucial 18 billion USD fruit crop, underpins North African and West Asian oasis agroecosystems. This study investigates the genetics morphology of its closest wild relative, endemic endangered Cape Verde atlantica A.Chev.). We reveal that latter originated through feralisation process from domesticated palms, evolving back into state with unique genetic diversity. highlights need to protect distinctiveness opens possibility enhancing resilience inclusion in programs. Summary L.). major crop but sustainability threatened by change. challenge could be mitigated relatives or feral populations. A.Chev.) thought among palm, origin taxonomic status remain unclear, studies having recovered it either as separate species palm. Better understanding differentiation P. needed fully unlock potential candidate for improvement. In this study, we employ an integrative approach clarify . Specifically, investigate phylogenetic placement, structure, seed generating extensive genomic datasets expert‐verified historical modern specimens , including type specimen Our findings indicate monophyletic nested within Its diversity overlaps substantially not completely varieties, seeds share characteristics those cultivated notably elongation, trait linked domestication. These results suggest may incipient event. emphasise conserving natural variation traditional knowledge associated name support

Language: Английский

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Data-driven assessment of climate change and vegetative cover dynamics in traditional oases

Journal of Hydrology Regional Studies, Journal Year: 2025, Volume and Issue: 59, P. 102266 - 102266

Published: March 13, 2025

Language: Английский

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Spatial Inversion of Soil Organic Carbon Content Based on Hyperspectral Data and Sentinel‐2 Images

Land Degradation and Development, Journal Year: 2025, Volume and Issue: unknown

Published: April 3, 2025

ABSTRACT Given that Sentinel‐2 (S2) multispectral images provide extensive spatial information and ground‐based hyperspectral data capture refined spectral characteristics, their integration can enhance both the comprehensiveness precision of surface acquisition. This study seeks to leverage these sources develop an optimized estimation model for accurately monitoring large‐scale soil organic carbon (SOC) content, thereby addressing current limitations in multi‐source fusion research. In this study, using mathematical transformation discrete wavelet transform process ground delta oasis Weigan Kuqa rivers Xinjiang, China, combination with S2 image, machine learning algorithms were employed construct models SOC content total variables characteristic variables, inversion oases was carried out. We found R ‐DWT‐H9 significantly correlation between ( p < 0.001). The accuracy constructed based on feature selected by SPA IRIV generally higher than variable models. IRIV‐RFR had highest stable capability. values 2 training validation sets 0.66 0.64, respectively. RMSE 1.5 g∙kg −1 , RPD > 1.4. interior oasis, mainly deficient (61.35%) or relatively (8.17%), while periphery it extremely (30.48%). Combine providing a reference evaluating fertility arid regions.

Language: Английский

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Integrating Green Infrastructure into Sustainable Agriculture to Enhance Soil Health, Biodiversity, and Microclimate Resilience

Sustainability, Journal Year: 2025, Volume and Issue: 17(9), P. 3838 - 3838

Published: April 24, 2025

While green infrastructure (GI) offers numerous benefits, its implementation in low-resource settings remains constrained by limited policy support and upfront costs, highlighting the need for context-sensitive strategies. This paper highlights value of integrating GI within sustainable agricultural systems effectiveness various techniques improving soil microbial communities reducing greenhouse gas emissions. The transition to requires innovative strategies that balance productivity, environmental conservation, resilience climate change. Sustainable agriculture increasingly leverages technological innovations enhance biodiversity, microclimate resilience. Green has found direct application agroforestry, conservation buffers, precision agriculture, health monitoring systems, nature-based solutions such as regenerative management. These applications are crucial enhancing health, water retention, while mitigating microclimatic impacts. Precision tools, like IoT sensors, drones, AI-driven analytics, allow farmers optimize water, nutrient, pesticide use, boosting yields efficiency minimizing impact. Simultaneously, advanced technologies track moisture, nutrients, biological activity real time, informing practices maintain long-term fertility carbon sequestration. integrated approach practical on-farm higher crop stability during droughts enhanced habitats beneficial species. In conclusion, there is a supportive frameworks, subsidies adoption, incentives microclimate, development programs, knowledge-sharing initiatives, encourage farmer adoption.

Language: Английский

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