Abstract:
Nanoparticles have emerged as powerful tools with multifaceted applications across various
domains, including agriculture, biotechnology, and veterinary medicine. This comprehensive
review aims to elucidate the profound impact of nanoparticles in these fields, shedding light
on their diverse roles and potential implications. In agriculture, nanoparticles exhibit
remarkable capabilities in improving crop yield, enhancing nutrient uptake, and mitigating
environmental stressors. Through targeted delivery systems and controlled release
mechanisms, nanoparticles offer precise solutions for addressing challenges such as soil
degradation, water scarcity, and pest management. Furthermore, their influence extends to
biotechnology, where nanoparticles play pivotal roles in drug delivery, gene editing, and
biomolecular sensing. By leveraging their unique physio-chemical properties, nanoparticles
enable precise manipulation at the molecular level, opening new avenues for biomedical
research and therapeutic interventions. Nanoparticles hold promise for advancing disease
diagnostics, drug formulation, and animal health management. Their ability to traverse
biological barriers and selectively target diseased tissues offers novel strategies for combating
infectious diseases, enhancing vaccination efficacy, and promoting animal welfare. However,
the widespread adoption of nanoparticles also raises important considerations regarding
safety, environmental impact, and regulatory frameworks. Addressing these challenges
requires interdisciplinary collaboration, robust risk assessment methodologies, and
transparent communication channels. Overall, this review provides a comprehensive
overview of the diverse applications of nanoparticles in agriculture, biotechnology, and
veterinary medicine, while also highlighting the opportunities and challenges associated with
their harnessing in these critical sectors. This review delves into the diverse applications of
nanoparticles in the realms of agriculture, biotechnology, and veterinary medicine.
Specifically, it elucidates their pivotal role in enhancing plant tissue culture, eliciting
secondary metabolites, and driving pharmaceutical innovations. The potential of
nanoparticles to revolutionize these fields through targeted delivery, enhanced efficacy, and
environmentally sustainable practices is thoroughly examined. The dual-action approach of
utilizing nanoparticles in both agriculture and medicine holds immense potential for creating
a more sustainable and healthier future. By continuing to advance this field, we can address
critical global challenges and pave the way for innovative solutions that benefit both farming
and healthcare.