Harnessing CRISPR-Based Gene Drives for Ecological Restoration and Biodiversity Conservation in Aquatic Ecosystems

Madhura K. Ziyatbekova G. Sen S. Kobenkulova Z. Punia A.
2025 Natural and Engineering Science

Natural and Engineering Sciences
2025 #10 Issue 3 900 - 911 pp.

The loss of biodiversity all over the world due to climate change and ecosystem destruction requires new conservation strategies. CRISPR-based gene drives offer promising opportunities for ecological restoration and biodiversity conservation, especially in aquatic environments, have a bright future. Gene drives are based on CRISPR / Cas9 technology that makes it possible to change the genetic characteristics of wild populations, which would contribute to resilience against various environmental stressors, including climate change, invasive species, and disease. CRISPR gene drives can help restore the genetic diversity of endangered species, as it allows beneficial characteristics to spread through populations and aid in ensuring the control of invasive species that endanger native ecosystems. Nevertheless, the introduction of gene drive technologies creates major ethical, ecological, and governance issues. These are the possibility of an unwanted ecological impact, problems with the transboundary flow of modified organisms, and the presence of strong regulatory frameworks to provide responsible use. This paper will examine the possible use of CRISPR-based gene drives in restoring aquatic ecosystems, in terms of their capacity to increase species adaptability, decrease extinction pressures, and recover ecosystem homeostasis. The results provide significant statistical insights, demonstrating that CRISPR-based gene drives can achieve an 85% allele frequency within just five generations and reduce invasive Asian carp populations by 60% within three generations. The regulatory and ethical factors are also addressed, and it is reasonable to note that it is important to collaborate globally and closely monitor the situation in order to reduce risks. The bright future of CRISPR-based gene drives implies new research and development to overcome the challenges and ensure that their safe and efficient use in conservation tactics.

aquatic ecosystems , biodiversity conservation , climate change , CRISPR , ecological restoration , gene drives , genetic diversity

Text of the article Перейти на текст статьи

Senior Scale Information and Communication Technology, Manipal Institute of Technology, Mahe, Bengaluru, India
Department of Information Systems, Al-Farabi Kazakh National University, Almaty, Kazakhstan
Teerthakar Parshvnath College of Nursing, Teerthakar Mahaveer University, Uttar Pradesh, India
Faculty of Construction Technologies, Infrastructure and Management, International Educational Corporation, Almaty, Kazakhstan
Centre of Research Impact and Outcome, Chitkara University, Punjab, Rajpura, India

Senior Scale Information and Communication Technology
Department of Information Systems
Teerthakar Parshvnath College of Nursing
Faculty of Construction Technologies
Centre of Research Impact and Outcome

10 лет помогаем публиковать статьи Международный издатель

Книга Публикация научной статьи Волощук 2026 Book Publication of a scientific article 2026