پیوندهای مفید
آمار
| تعداد نشریات | 31 |
| تعداد شمارهها | 710 |
| تعداد مقالات | 6,695 |
| تعداد مشاهده مقاله | 9,268,725 |
| تعداد دریافت فایل اصل مقاله | 6,372,481 |
Sustainable livestock grazing in Kazakhstan practices, challenges, and environmental considerations | ||
| Caspian Journal of Environmental Sciences | ||
| دوره 21، شماره 4، دی 2023، صفحه 977-988 اصل مقاله (914.74 K) | ||
| نوع مقاله: Reviewers | ||
| شناسه دیجیتال (DOI): 10.22124/cjes.2023.7156 | ||
| نویسندگان | ||
| Doppy Roy Nendissa* 1؛ Iskakov Kairat Alimgozhaevich2؛ I.B. Sapaev3؛ Tadjibaeva Muyassar Karimbaevna4؛ Suyunova Zulfiya Bakhtiyarovna5؛ Dahlan Abdullah6؛ Kurbonalijon Gaybullo Ugli Zokirov7؛ Absalamova Gulmira Sharifovna8 | ||
| 1Agribusiness Study Program, Faculty of Agriculture, Nusa Cendana University, Indonesia | ||
| 2LLP Kazakh Research Institute of Animal and Fodder Production 050035, Almaty, Zhandosova str. 51, Republic of Kazakhstan | ||
| 3New Uzbekistan University, Tashkent, Uzbekistan; School of Engineering, Central Asian University, Tashkent 111221, Uzbekistan; and “Tashkent Institute of Irrigation and Agricultural Mechanization Engineers” National Research University, Tashkent, Uzbekistan | ||
| 4Department of Zoology, Human Morphophysiology and Nutrition, Nukus State Pedagogical Institute Named After Ajiniyaz, Uzbekistan | ||
| 5Department of Genetics, Selection, Breeding and Reproduction of Animals, Samarkand State University of Veterinary Medicine, Livestock and Biotechnologies (SSUV), Uzbekistan | ||
| 6Department of Information Technology, University of Malikussaleh, Aceh, Indonesia | ||
| 7Department of Fruit-Vegetable Growing and Viticulture, Tashkent State Agrarian University, 100140 Tashkent, Uzbekistan | ||
| 8Samarkand Agroinnovations and Research University, Uzbekistan | ||
| چکیده | ||
| Livestock grazing is an integral part of Kazakhstan's agricultural sector, contributing significantly to the nation's economy and rural communities. The study explores both traditional and modern grazing practices utilized in the country. It emphasizes the importance of understanding livestock physiology, nutrition, and environmental needs to implement effective grazing management strategies. Environmental and socioeconomic impacts of livestock grazing are discussed, with a focus on pasture degradation, soil erosion, water resource utilization, and biodiversity conservation. Additionally, the paper addresses the role of livestock grazing in sustaining traditional nomadic practices and its significance for rural livelihoods. This paper delves into the practices, challenges, and impacts of livestock grazing in Kazakhstan, with a specific focus on sustainable modern management approaches. Grazing management practices, including rotational grazing, rest periods, and grazing intensity control, are examined in-depth. These practices aim to optimize pasture usage, prevent overgrazing, and promote healthier vegetation growth while ensuring animal welfare. Moreover, it analyses the existing policy and regulatory framework surrounding livestock grazing in Kazakhstan and evaluates its effectiveness in promoting sustainable practices. The current study also introduces dynamic forage rotation (DFR) as a new tool and technique which has privilege compared to the traditional management approach and improves the modern management approach. The obtained results show that the DFR has been improved averagely 55.77% and 42.52% compared to the traditional and modern management approaches, respectively. | ||
| کلیدواژهها | ||
| Dynamic forage rotation؛ Kazakhstan؛ Livestock physiology؛ Modern management approach؛ Traditional management approach | ||
| مراجع | ||
|
Agybetova, R, Zhakupov, A, Berdenov, Z, Abishov, N, Ylemessov, A & Gizzatzhanova, A 2023, Assessment of recreational suitability of Lake Alakol in the republic of Kazakhstan on hydrological indicators. Geo Journal of Tourism and Geosites, 46: 118-123.
Alemi Safaval, P, Kheirkhah Zarkesh, M, Neshaei, SA & Ejlali, F 2018, Morphological changes in the southern coasts of the Caspian Sea using remote sensing and GIS. Caspian Journal of Environmental Sciences, 16: 271-285.
Anas, M, Liao, F, Verma, KK, Sarwar, MA, Mahmood, A, Chen, Z L, & Li, YR 2020, Fate of nitrogen in agriculture and environment: agronomic, eco-physiological and molecular approaches to improve nitrogen use efficiency. Biological Research, 53: 1-20.
Blench, R 1999, Traditional livestock breeds: geographical distribution and dynamics in relation to the ecology of West Africa (Vol. 67). London: Overseas Development Institute.
Collier, RJ & Collier, JL (Eds.) 2012, Environmental physiology of livestock. John Wiley & Sons.
Derner, JD, Hunt, L, Filho, KE, Ritten, J, Capper, J & Han, G 2017, Livestock production systems. Rangeland systems: processes, management and challenges, pp. 347-372.
Franzluebbers, AJ 2007, Integrated crop–livestock systems in the Southeastern USA.
Lund, V 2006, Natural living—a precondition for animal welfare in organic farming. Livestock Science, 100, 71-83.
Matson, P, Clark, WC & Andersson, K 2016, Pursuing sustainability: a guide to the science and practice. Princeton University Press.
Melara, EG, Avellaneda, MC, Valdivié, M, García Hernández, Y, Aroche, R & Martínez, Y 2022, Probiotics: Symbiotic relationship with the animal host. Animals, 12: 719.
Moldakhmetova, G, Kurmanov, R, Toishimanov, M, Tajiyev, K, Nuraliyeva, U, Sheralieva, Z, & Suleimenova, Z 2023, Palynological, physicochemical, and organoleptic analysis of honey from different climate zones of Kazakhstan. Caspian Journal of Environmental Sciences, 21: 543-553.
Myrzaliyev, B, Mustafayeva, B, Shinet, G, Kaltayeva, S & Mutaliyeva, A 2023, Features of strategic planning in agricultural production in Kazakhstan. Reviews in Agricultural Science, 11: 1-19.
Neethirajan, S 2020, Transforming the adaptation physiology of farm animals through sensors. Animals, 10: 1512.
Neethirajan, S, Tuteja, SK, Huang, ST & Kelton, D 2017, Recent advancement in biosensors technology for animal and livestock health management. Biosensors and Bioelectronics, 98: 398-407.
Nejat, SA, Hermidas Bavand, D & Farshchi, P 2018, Environmental challenges in the Caspian Sea and international responsibility of its littoral states.
Qin, Y, He, J, Wei, M & Du, X 2022, Challenges threatening agricultural sustainability in central Asia: Status and prospect. International Journal of Environmental Research and Public Health, 19: 6200.
Rahimon, RM 2012, Evolution of land use in pastoral culture in Central Asia with special reference to Kyrgyzstan and Kazakhstan. Rangeland stewardship in Central Asia: balancing improved livelihoods, biodiversity conservation and land protection, pp. 51-67.
Rashamol, VP, Sejian, V, Bagath, M, Krishnan, G, Archana, PR & Bhatta, R 2020, Physiological adaptability of livestock to heat stress: an updated review. Journal of Animal Behaviour and Biometeorology, 6: 62-71.
Rodríguez Espíndola, O, Cuevas Romo, A, Chowdhury, S, Díaz Acevedo, N, Albores, P, Despoudi, S, & Dey, P 2022, The role of circular economy principles and sustainable-oriented innovation to enhance social, economic and environmental performance: Evidence from Mexican SMEs. International Journal of Production Economics, 248: 108495.
Romagnoli, S, Faustino, A, Adilov, S, Arney, D, Israilov, Z, Guidi, A, & Hasanov, S 2022, Uzbekistan: A report on livestock production and the provision of veterinary services. Prospects for the Development of Higher Education, 11: 87-106 [In Russian].
Salnikov, V, Turulina, G, Polyakova, S, Petrova, Y & Skakova, A 2015, Climate change in Kazakhstan during the past 70 years. Quaternary International, 358: 77-82.
Seidakhmetova, A, Kaldiyarov, D, Dyrka, S, Bedelbayeva, A & Kaldiyarov, A 2022, Development of ecosystem stability as a tool for managing agricultural areas in the Republic of Kazakhstan: Problems and opportunities for their resolution. Journal of Environmental Management & Tourism, 13: 1993-2001.
Tedeschi, LO, Greenwood, PL & Halachmi, I 2021, Advancements in sensor technology and decision support intelligent tools to assist smart livestock farming. Journal of Animal Science, 99: skab038.
Tleubayev, A, Bobojonov, I & Götz, L 2022, Agricultural policies and technical efficiency of wheat production in Kazakhstan and Russia: Evidence from a stochastic frontier approach. Journal of Agricultural and Applied Economics, 54: 407-421.
Weymes, E 2004, A challenge to traditional management theory. Foresight, 6: 338-348.
Widaningsih, N, Hartono, B, Utami, HD & Rohaeni, ES 2023, Implementation of technology and information systems (IOT) to support sustainable livestock development: Future challenges and perspectives. Caspian Journal of Environmental Sciences, 21: 457-465.
Yerassyl, D, Jin, Y, Zhanar, S, Aigul, K & Saltanat, Y 2022, The Current status and lost biogas production potential of kazakhstan from anaerobic digestion of livestock and poultry manure. Energies, 15: 3270.
Zhang, M, Wang, X, Feng, H, Huang, Q, Xiao, X & Zhang, X 2021, Wearable Internet of Things enabled precision livestock farming in smart farms: A review of technical solutions for precise perception, biocompatibility, and sustainability monitoring. Journal of Cleaner Production, 312: 127712. | ||
|
آمار تعداد مشاهده مقاله: 473 تعداد دریافت فایل اصل مقاله: 485 |
||