ALGAE BIOFERTILIZATION AS A TYPE OF MODERN CLEAN AGRICULTURE AROUND THE WORLD / REVIEW ARTICLE
Keywords:
Environmental Pollution, Biofertilization, Clean, AgricultureAbstract
Today we need a new and conscious approach to agriculture in order to respect and preserve the environment in which we live, and for a better future, aims to implement this new model day by day. Agriculture plays a fundamental and important role in a person’s life, as it provides him with his basic needs of clothing and food, so paying attention to the agricultural sector, developing it, and using modern technological methods is necessary to keep pace with changes global development in the agricultural field, the most important of which is following a sound agricultural policy that is consistent with the requirements of the times despite the FAO’s confirmation that the year 1966 witnessed an increase in global production of strategic grain crops by about 7%, the global supply of grains decreased and prices rose by more than 50% in the same year. The fact that we are a consumer society, including strategic food, which means, specifically, that we lack food security. Predictions are that the increase in demand for food will reach 70% in 2030 AD overcoming this bleak picture is possible if we focus on agricultural production with the aim of meeting food needs, this is done through integrated agricultural plans that take advantage of the moderate climate and vast areas of land arable and non-cultivated crops, water, and agricultural modernization techniques to meet the challenges of the future.
References
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.
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.
Asif , M, Mughal A, Bisma R, Mehdi Z, Saima S, Ajaz M, et al. Application of different strains of biofertilizers for raising quality forest nursery. Int J Curr Microbiol Appl Sci 2018;7:3680-6.
Babafemi O, Iyiola AO, Ojeleye AE, Adebayo QS. 2022. Advantages and potential threats of agrochemicals on biodiversity conservation. In: Biodiversity in Africa: Potentials, Threats and Conservation. Berlin: Springer; p. 267-92.
Granada CE, Passaglia LM, De Souza EM, Sperotto RA. Is phosphate solubilization the forgotten child of plant growth-promoting rhizobacteria? Front Microbiol 2018;9:2054.
Gerten D, Heck V, Jägermeyr J, Bodirsky BL, Fetzer I, Jalava M,. Feeding ten billion people is possible within four terrestrial planetary boundaries. Nat Sustain 2020;3:200-8.
Guo J, Li C, Xu X, Sun M, Zhang L. Farmland scale and chemical fertilizer use in rural China: New evidence from the perspective of nutrient elements. J Clean Prod 2022;376:134278.
Godfray HC, Stephens AE, Jepson PD, Jobling S, Johnson AC, Matthiessen P, et al. A restatement of the natural science evidence base on the effects of endocrine disrupting chemicals on wildlife. Proc R Soc B 2019;286:20182416.
Iwai CB, Khaung T, Prasopsuk J, Ravindran B. Environmental risk assessment of floating gardens in Inle Lake, Myanmar. Urban Climate 2022;44:101194.
Jacob SM, Paranthaman S. Biofertilizers: An advent for eco-friendly and sustainable agriculture development. Vegetos 2022;35:1-13.
Liu W, Poobathy R. Biofertilizer utilization in forestry. In: Biofertilizers: Study and Impact. United States: John Wiley; 2021. p. 1-37.
Nikolaisen M, Cornulier T, Hillier J, Smith P, Albanito F, Nayak D. Methane emissions from rice paddies globally: A quantitative statistical review of controlling variables and modelling of emission factors. J Clean Prod 2023;409:137245.
Pirttilä AM, Tabas HM, Baruah N, Koskimäki JJ. Biofertilizers and biocontrol agents for agriculture: How to identify and develop new potent microbial strains and traits. Microorganisms 2021;9:817.
Rashmi I, Karthika K, Roy T, Shinoji K, Kumawat A, Kala S. 2022. Soil Erosion and sediments: A source of contamination and impact on agriculture productivity. In: Agrochemicals in Soil and Environment: Impacts and Remediation. Berlin: Springer; p. 313-45.
Sharma N, Singhvi R. Effects of chemical fertilizers and pesticides on human health and environment: A review. Int J Agric Environ Biotechnol 2017;10:675-80.
Smith P, Reay D, Smith J. Agricultural methane emissions and the potential formitigation. Philos Trans A Math Phys Eng Sci 2021;379(2021):20200451.
Sponsler DB, Grozinger CM, Hitaj C, Rundlöf M, Botías C, Code A. Pesticides and pollinators: A socioecological synthesis. Sci Total Environ 2019;662:1012-27.
Tudi M, Ruan HD, Wang L, Lyu J, Sadler R, Connell D,. Agriculture development, pesticide application and its impact on the environment. Int J Environ Res Public Health 2021;18:1112.
Zeki, H.F., Ajmi, R.N., Ati, E.,M. Phytoremediation mechanisms of mercury (Hg) between some plants and soils in Baghdad city. Plant Archives, 2019, 19(1), pp. 1395–1401.
Zhang C, Ju X, Powlson D, Oenema O, Smith P. Nitrogen surplus benchmarks for controlling N pollution in the main cropping systems of China. Environ Sci Technol 2019;53:6678-87.
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