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Next Generation Agriculture
Academic Journal

Next Gen Agriculture

Advancing Smart, Sustainable, and Climate-Resilient Agricultural Systems

Peer-Reviewed Open Access Interdisciplinary
Next Gen Agriculture

Next Gen Agriculture

Gold Open Access Article Processing Charges (APCs) Double-Blind Peer Review Archived in CLOCKSS

Electronic ISSN: 1234-5678  |  Print ISSN: 8765-4321

Date of Foundation: 2025-01-01  

Indexing: Scopus, Web of Science, DOAJ, Google Scholar

Journal Rank: Impact Factor 2024: 4.2 - Q1 (Animal & Environmental Science); CiteScore 2024: 6.1 - Q1 (Sustainability; Veterinary Science)

Editor-in-Chief: PROF DR MUHAMMAD AQEEL ASHRAF | View Editorial Board

Next Gen Agriculture (NGA) is an international, peer-reviewed, multidisciplinary journal dedicated to advancing global agriculture. It publishes original research, reviews, technical notes, and perspectives in areas including smart & digital agriculture, climate-smart systems, crop science & biotechnology, environmental studies, agricultural engineering, soil & water management, agricultural economics & policy, and livestock/fisheries systems... Read More

Scope

Next Gen Agriculture (NGA) welcomes original research articles, reviews, short communications, perspectives, and technical notes. The journal focuses on innovations in smart and sustainable agriculture.

Submission & Review

Authors should prepare manuscripts according to NGA author guidelines. Submissions are made via the official online submission system. Each submission undergoes a single-blind peer review process.

Open Access & Publication

Accepted manuscripts are published as gold open access. All articles are freely available to the global research community. There are no article processing charges (APCs).

Top Ranked Articles

PRECISION LIVESTOCK FARMING AS A CLIMATESMART STRATEGY FOR SUSTAINABLE DAIRY PRODUCTION AND PLANETARY HEALTH

Volume 1 Issue 1

PRECISION LIVESTOCK FARMING AS A CLIMATESMART STRATEGY FOR SUSTAINABLE DAIRY PRODUCTION AND PLANETARY HEALTH Abstract The dairy sector faces mounting pressure to reduce greenhouse gas (GHG) emissions while maintaining productivity and ensuring animal welfare. Precision Livestock Farming (PLF) integrates sensor technologies, artificial intelligence, and big data analytics to optimize herd management and reduce environmental footprints.…

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DIETARY SEAWEED SUPPLEMENTATION REDUCES ENTERIC METHANE EMISSIONS AND IMPROVES FEED EFFICIENCY IN TROPICAL BEEF CATTLE

Volume 1 Issue 1

DIETARY SEAWEED SUPPLEMENTATION REDUCES ENTERIC METHANE EMISSIONS AND IMPROVES FEED EFFICIENCY IN TROPICAL BEEF CATTLE Abstract Enteric methane emissions from ruminant livestock represent a major contributor to agricultural greenhouse gas outputs and global climate change. Climate-smart feeding strategies are increasingly being explored to mitigate methane emissions without compromising productivity. This study evaluated the effect of…

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ONE HEALTH APPROACHES TO PREVENTING AND CONTROLLING ZOONOTIC DISEASES: INTEGRATING HUMAN, ANIMAL, AND ENVIRONMENTAL HEALTH FOR SUSTAINABLE GLOBAL HEALTH SECURITY

Volume 1 Issue 1

ONE HEALTH APPROACHES TO PREVENTING AND CONTROLLING ZOONOTIC DISEASES:INTEGRATING HUMAN, ANIMAL, AND ENVIRONMENTAL HEALTH FOR SUSTAINABLE GLOBAL HEALTH SECURITY Abstract Zoonotic diseases, transmissible between animals and humans, pose major threats to public health, food security, and economic stability, and emerging pathogens like SARS-CoV-2, Ebola, avian influenza, and antimicrobial-resistant bacteria highlight the need for coordinated interventions,…

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DIETARY STRATEGIES FOR ENTERIC METHANE MITIGATION IN DAIRY COWS: EVALUATING THE EFFECTS OF NITRATE AND SEAWEED SUPPLEMENTATION ON GREENHOUSE GAS EMISSIONS, MILK PRODUCTION

Volume 1 Issue 1

DIETARY STRATEGIES FOR ENTERIC METHANE MITIGATION IN DAIRY COWS: EVALUATING THE EFFECTS OF NITRATE AND SEAWEED SUPPLEMENTATION ON GREENHOUSE GAS EMISSIONS, MILK PRODUCTION Abstract Methane (CH₄) from enteric fermentation in ruminants, produced mainly by rumen methanogenic archaea using hydrogen and carbon dioxide from microbial feed fermentation, is a potent greenhouse gas with a global warming…

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CLIMATE-SMART LIVESTOCK SYSTEMS FOR SUSTAINABLE FOOD PRODUCTION

Volume 1 Issue 1

CLIMATE-SMART LIVESTOCK SYSTEMS FOR SUSTAINABLE FOOD PRODUCTION Abstract Climate-smart livestock systems are essential for sustainable food production and mitigating greenhouse gas emissions, and ruminants—major contributors to methane emissions—were evaluated under conventional and low-emission diets to assess effects on feed efficiency, growth performance, and enteric methane production, with parameters including weight gain, feed intake, feed conversion…

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