CLEAN AGRICULTURE'S ENVIRONMENTAL IMPACT/ A REVIEW ARTICLE

Authors

  • Abrar Thamer Al-Safaar Baghdad University College of education and pure science (Ibn-alhaitham)
  • Rana ihssan hamad Baghdad University College of education and pure science (Ibn-alhaitham)
  • Israa radhi khudair Baghdad University College of education and pure science (Ibn-alhaitham)
  • Reyam Naji Ajmi Department of Biology Science, Mustansiriyah University, POX 46079, Iraq-Baghdad

Keywords:

Environmental Pollution, Clean Agriculture, Impact, Botany Sector

Abstract

Clean agriculture must be managed in a preventive and responsible manner to ensure the environment, health, and survival of current and future generations. It is a live, dynamic system that reacts to influences and internal and external factors. Clean agriculture practitioners can improve efficiency, increase production, and evaluate new technologies, especially when understanding agricultural ecosystems to provide a good plant environment for plant growth, as agriculture is considered one of the most important activities that man has practiced since ancient times. Its access to food and the integration of applications and technologies across sectors enhance the development of the food and agricultural sectors by integrating new farming practices through the industrial sector

References

FAO. 2021. The State of the World’s Land and Water Resources for Food and Agriculture – Systems at breaking point. Synthesis report 2021. Rome, FAO.

FAO & ITPS. 2015. Status of the World’s Soil Resources (SWSR) – Main Report. Food and Agriculture Organization of the United Nations and Intergovernmental Technical Panel on Soils, Rome, Italy.

Ajmi, R.N., Sultan, M., Hanno, S.H. Bioabsorbent of chromium, cadmium and lead from industrial waste water by waste plant. Journal of Pharmaceutical Sciences and Research, 2018, 10(3), pp. 672–674.

FAO. 2022. Greenhouse Gas Emissions from Agrifood Systems. Global, regional and country trends, 2000–2020. FAOSTAT Analytical Brief 50.

Ajmi, R.N., Lami, A. Ati, E.M. Ali, N.S.M. Latif, A.S. Detection of isotope stable radioactive in soil and water marshes of Southern Iraq. Journal of Global Pharma Technology, 2018, 10(6), pp. 160–171.

OECD. 2022. Agricultural Policy Monitoring and Evaluation 2022: Reforming agricultural policies for climate change mitigation. OECD Publishing, Paris.

Bureau, J. C. & Antón, J. 2022. Agricultural Total Factor Productivity and the Environment: A Guide to Emerging Best Practices in Measurement. OECD Food, Agriculture and Fisheries Paper n°177. OECD Publishing, Paris.

OECD. 2011. Fostering Productivity and Competitiveness in Agriculture. OECD Publishing, Paris.

Bureau, J. C. & Antón, J. 2022. Agricultural Total Factor Productivity and the Environment: A Guide to Emerging Best Practices in Measurement. OECD Food, Agriculture and Fisheries Paper n°177. OECD Publishing, Paris.

Fadhel R, Zeki HF, Ati EM, Ajmi RN. Estimation Free Cyanide on the Sites Exposed of Organisms Mortality in Sura River /November 2018. Journal of Global Pharma Technology. Technology. (2019); 11(3) (Suppl.): 100-105

FAO. 2020. The State of Agricultural Commodity Markets 2020. Agricultural markets and sustainable development: Global value chains, smallholder farmers and digital innovations. Rome, FAO.

Rawat, S. 2020. Global volatility of public agricultural R&D expenditure. In Cohen, M., ed. 2020. Advances in Food Security and Sustainability. Elsevier, Vol. 5, pp. 119-143.

Johnstone, N., I. Hascic, & M. Kalamova. 2011. Environmental policy design characteristics and innovation. OECD Stud. Environ. Innov. pp. 19-46.

Zeki, H.F., Ajmi, R.N., Mohammed Ati, E., Phytoremediation mechanisms of mercury (Hg) between some plants and soils in Baghdad city. Plant Archives, 2019, 19(1), pp. 1395–1401.

Fuglie, K. 2016. The growing role of the private sector in agricultural research and development worldwide. Global Food Security, Vol. 10(2016), pp. 29-38.

Rawat, S. 2020. Global volatility of public agricultural R&D expenditure. In Cohen, M., ed. 2020. Advances in Food Security and Sustainability. Elsevier, Vol. 5, pp. 119-143.

Pardey, P. G., Chan-Kang, C., Dehmer, S.P. & Beddow, J. M. 2016. Agricultural R&D is on the move. Nature, 537: 301–303.

World Health Organization, Ammonia in drinking water-background document for development of WHO guideline for drinking water quality, 4th Ed., WHO Series, Geneva, (2021).

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Published

2024-02-08

How to Cite

Abrar Thamer Al-Safaar, Rana ihssan hamad, Israa radhi khudair, & Reyam Naji Ajmi. (2024). CLEAN AGRICULTURE’S ENVIRONMENTAL IMPACT/ A REVIEW ARTICLE. European Scholar Journal, 5(2), 28-31. Retrieved from https://scholarzest.com/index.php/esj/article/view/4297

Issue

Vol. 5 No. 2 (2024): ESJ

Section

Articles

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This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

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