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Dynamic model engineering of sustainable agriculture as a pragmatic concept of critical land management

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
According to many experts, the water crisis will be one of the most important challenges in the coming years on the planet. Watershed management is one of the most effective ways to conserve rainwater and develop water resources. The purpose of the study was to obtain a model of critical land management in the Welang watershed area. This study uses a dynamic systems approach based on a causal philosophy (cause and effect) through a deep understanding of how a system works. The parameters used are based on sustainable agriculture in terms of physical sustainability aspects/critical land from erosion factor indicators. Model validation is done by comparing the behaviour of the model with a natural system (quantitive behaviour pattern comparison), namely the Mean Absolute Percentage Error (MAPE) Middle-Value Test. Modelling is supported by Powersim Studio Express Software ver. 10. The results show that the physical sustainability model/critical land using a simulation scenario of 25% erosion control funds shows a trend of increasing production land area and tackled land area followed by a decrease in annual erosion weight. The economic sustainability model obtained results at the end of the projected year showing farm revenues IDR 63,591,396 (USD1 ≈ IDR14.27 thous. in average in 2021). This means that the higher the acceptance value, the farming can provide economic welfare for farmers.
Wydawca
Rocznik
Tom
Strony
56--59
Opis fizyczny
Bibliogr. 18 poz., tab.
Twórcy
  • Universitas Pembangunan Nasional “Veteran” Jawa Timur, Faculty of Agriculture, Department of Agrotechnology, Surabaya, Jawa Timur 60294, Indonesia
  • Universitas Pembangunan Nasional “Veteran” Jawa Timur, Faculty of Agriculture, Department of Agribusiness, Surabaya, Jawa Timur, Indonesia
Bibliografia
  • BLANCO-SEPÚLVEDA R. 2018. An erosion control and soil conservation method for agrarian uses based on determining the erosion threshold. MethodsX. Vol. 5 p. 761–772. DOI 10.1016/J.MEX.2018.07.007.
  • CALLEROS-ISLAS A. 2019. Sustainability assessment. An adaptive low-input tool applied to the management of agroecosystems in México. Ecological Indicators. Vol. 105 p. 386–397. DOI 10.1016/J.ECOLIND.2017.12.040.
  • DOYLE C., BEACH T., LUZZADDER-BEACH S. 2021. Tropical forest and wetland losses and the role of protected areas in northwestern Belize, revealed from Landsat and machine learning. Remote Sensing. Vol. 13(3), 379. DOI 10.3390/rs13030379.
  • GONZALEZ-REDIN J., GORDON I.J., HILL R., POLHILL J.G., DAWSON T.P. 2018. Exploring sustainable land use in forested tropical social-ecological systems: A case-study in the wet tropics. Journal of Environmental Management. Vol. 231 p. 940–952. DOI 10.1016/j.jenvman.2018.10.079.
  • HUNING T.R., WAHL F. 2021. The origins of agricultural inheritance traditions. Journal of Comparative Economics. Vol. 49(3) p. 660–674. DOI 10.1016/j.jce.2021.01.004.
  • KANTER D.R., MUSUMBA M., WOOD S.L.R., PALM C., ANTLE J., BALVANERA P., ..., ANDELMAN S. 2018. Evaluating agricultural trade-offs in the age of sustainable development. Agricultural Systems. Vol. 163 p. 73–88. DOI 10.1016/J.AGSY.2016.09.010.
  • KOVALENKO P., ROKOCHINSKIY A., VOLK P., TURCHENIUK V., FROLENKOVA N., TYKHENKO R. 2021. Evaluation of ecological and economic efficiency of investment in water management and land reclamation projects. Journal of Water and Land Development. No. 48 p. 81–87. DOI 10.24425/jwld.2021.136149.
  • MOGES S.S., DINKA M.O. 2021. Assessment of groundwater vulnerability using the DRASTIC model : A case study of Quaternary catchment A21C , Limpopo River Basin , South Africa. Journal of Water and Land Development. No. 49 p. 35–46. DOI 10.24425/jwld.2021.137094.
  • MOLAJOU A., POULADI P., AFSHAR A. 2021. Incorporating social system into water-food-energy nexus. Water Resources Management. Vol. 35(13) p. 4561–4580. DOI 10.1007/s11269-021-02967-4.
  • PICHURA V., POTRAVKA L., DUDIAK N., STROGANOV A., DYUDYAEVA O. 2021. Spatial differentiation of regulatory monetary valuation of agricultural land in conditions of widespread irrigation of steppe soils. Journal of Water and Land Development. No. 48 p. 182–196. DOI 10.24425/jwld.2021.136161.
  • POULADI P., AFSHAR A., MOLAJOU A., AFSHAR M.H. 2020. Socio-hydrological framework for investigating farmers’ activities affecting the shrinkage of Urmia Lake; hybrid data mining and agent-based modelling. Hydrological Sciences Journal. Vol. 65(8) p. 1249–1261. DOI 10.1080/02626667.2020.1749763.
  • SATRIAWAN H., FUADY Z., FITRI R. 2021. Soil erosion control in immature oil palm plantation. Journal of Water and Land Development. No. 49 p. 47–54. DOI 10.24425/jwld.2021.137095.
  • SINGH W.R., BARMAN S., TIRKEY G. 2021. Morphometric analysis and watershed prioritization in relation to soil erosion in Dudhnai Watershed. Applied Water Science. Vol. 11(9), 151. DOI 10.1007/s13201-021-01483-5.
  • ULIBARRI N., GARCIA N.E. 2020. Comparing complexity in watershed governance: The case of California. Water. Vol. 12(3), 766. DOI 10.3390/w12030766.
  • WANG G., MANG S., CAI H., LIU S., ZHANG Z., WANG L., INNES J.L. 2016. Integrated watershed management: Evolution, development and emerging trends. Journal of Forestry Research. Vol. 27 p. 967–994. DOI 10.1007/s11676-016-0293-3.
  • WIJITKOSUM S. 2021. Factor influencing land degradation sensitivity and desertification in a drought prone watershed in Thailand. International Soil and Water Conservation Research. Vol. 9(2) p. 217–228. DOI 10.1016/j.iswcr.2020.10.005.
  • XIONG M., SUN R., CHEN L. 2018. Effects of soil conservation techniques on water erosion control: A global analysis. Science of The Total Environment. Vol. 645 p. 753–760. DOI 10.1016/j.scitotenv.2018.07.124.
  • YAVITT J.B., PIPES G.T., OLMOS E.C., ZHANG J., SHAPLEIGH J.P. 2021. Soil organic matter, soil structure, and bacterial community structure in a post-agricultural landscape. Frontiers in Earth Science. Vol. 9, 590103. DOI 10.3389/feart.2021.590103.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-7a907d13-bf11-483b-a55b-efc8aef9f24a
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