Determinan Terpilih untuk Kualitas Air Embung pada Lahan Tadah Hujan di Karanganyar, Jawa Tengah
Abstract
Water conservation is needed to overcome the shortage of irrigation water through harvesting rainwater on rainfed land using small farm reservoir. Intensive agricultural activities cause a reduction in land resources which disrupts hydrological functions (water quantity and quality). This study aims to determine the selected parameters for small farm reservoir water quality and identify water quality based on irrigation water standards according to FAO (1994) and PP No. 82 of 2001. The research was conducted from March to December 2014 in Karanganyar Regency, Central Java Province. This study used a descriptive exploratory survey method with purposive sampling. Water quality data was analyzed using Principal Components Analysis (Multivariate Test) MINITAB 16 to determine the main components as the selected determinants. Furthermore, based on the results of the PCA analysis, 5 variables were obtained whose eigenvalue proportions met the main criteria, including DHL of 0.467; SAR of 0.542; pH of 0.538; Actual Savings Ratio (ASR) of 0.662; and water-air temperature deviation of 0.612. Furthermore, a match is made between the selected determinant measurement data and the water quality standard. The results of matching to the selected determinants for water quality in the reservoir have met the water quality standards for irrigation based on FAO (1994) and Government Regulation no. 82 (2001). The soil characteristics of the catchment area also affect water quality because in rainwater harvesting, surface runoff in the catchment area will flow and be accommodated by the small farm reservoir.
Keywords: water quality, small farm reservoir, PCA, water conservation, rainfall harvesting
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References
Aisyah, Sugiarti. 2010. Pendekatan analisis multivariat dalam menentukan sebaran spasial karakteristik kualitas air dan substrat sedimen di danau towuti. Jurnal LIMNOTEK Perairan Darat Tropis di Indonesia. 17(2): 218–226.
Balai Penelitian Tanah 2005. Analisis kimia tanah, tanaman, air, dan pupuk. Bogor (ID): Balai Penelitian Tanah Balitbangtan Kementan RI.
Bartram J, Ballance R. 1996. Water Quality Monitoring-A Practical Guide to the Design and Implementation of Freshwater Quality Studies and Monitoring Programmes. Jenewa: WHO/UNEP. https://doi.org/10.4324/9780203476796
Camberato J. 2001. Irrigation water quality. Carolina : Clemson University [Internet]. [diunduh 2014 Agustus 12]. Tersedia pada: http://www.scnla.com/Irrigation_Water_Quality.pdf.
Carvajal F, Aguera F, Hermosilla Sanchez. 2014. Water balance in artificial on-farm agricultural water reservoirs for the irrigation on intensive greenhouse crops. Journal Agricultural Water Management 131(2014): 146–155. https://doi.org/10.1016/ j.agwat.2013.09.006
Food and Agriculture Organization 1994. Water quality for Agriculture. California : University of California Davis [Internet]. [diunduh 2014 Juni 12]. Tersedia pada:http://www.fao.org/DOCReP/003/T0234e/T0234E01.htm#ch1.4.
Heryani N, Pawitan, Yanuar, Purwanto J, Subagyono K. 2013. Dinamika Aliran Bawah Permukaan pada Berbagai Kandungan Kimia Air secara Spasial dan Temporal di dalam Daerah Aliran Sungai. Jurnal Tanah dan Iklim. 37(1): 45–56.
Jiang Y, Zongren MA. 2012. An evaluation of water quality from locations of huangyang reservoir. Journal Procedia Environmental Science. 12(2012): 280–284. https://doi.org/10.1016/j.proenv.2012. 01.278
Johnson RA, Wichern DW. 2007. Applied Multivariate Statistical Analysis.6ndEd. New Jersey (US): Pearson Education Inc. https://doi.org/ 10.1002/0471667196.ess6094
[KLH] Kementerian Lingkungan Hidup RI 2007. Pengelolaan kualitas air dan pengendalian pencemaran air [internet]. [diunduh 2014 Juni 12]. Tersedia pada: http://jdih.menlh.go.id/.
Komariah, Setiawan AB, Dewi WS, dan Sumani. 2010. Analisis neraca air tanaman untuk menentukan pola tanam di lahan tadah hujan di Kecamatan Gondangrejo, Kabupaten Karanganyar, Jawa Tengah. Naskah dalam review. Yogyakarta (ID).
Komariah, Dewi WS, Sumani, Rahayu 2013. Upaya mitigasi perubahan iklim guna mengantisipasi short-drought akibat anomali cuaca pada lahan kering dengan embungisasi mikro di Kabupaten Karanganyar. Proposal Usulan Hibah Utama. Yogyakarta (ID).
Lobato, Hauser-Davis, Oliveira, Silveira, Silva, Tavares, Saraiva 2015. Costruction of a novel water quality index and quality indicator for reservoir water quality evaluation : a case study in the amazone region. Journal Hydrology. 522(2015): 674–683. https:// doi.org/10.1016/j.jhydrol.2015.01.021
Maestre-ValeroJ.F, Martínez-Alvarez V. 2010. Effects of drip irrigation systems on the recovery of dissolved oxygen from hypoxic water. Journal Agricultural Water Management 97(11): 1806–1812. https://doi.org/10.1016/j.agwat.2010. 06.018
Maestre-Valero J.F., Martínez-Alvarez V., and Nicolas, E., 2013. Physical, chemical and microbiological effects of suspended shade cloth covers on stored water for irrigation. Journal. Agricultural Water Management 118(2013) :70–78. https://doi.org/ 10.1016/j.agwat.2012.11.016
Noordwijk MV, Hairiah K. 2006. Intensifikasi Pertanian, Biodiversitas Tanah, dan Fungsi Agro-Ekosistem. Jurnal Agrivita 28(3) : 1–13.
Palma P, Ledo L, Soares S, Barbosa IR, Alvarenga P. 2014. Spatial and temporal variability of the water and sediments quality in the alqueva reservoir (guadiana basin; southern portugal). Journal Science of the Total Environment. 470–471(2014): 780–790. https://doi.org/10.1016/j.scitotenv. 2013.10.035
Panigrahi B., Panda S.N., Mal, B.C. 2007. Rainwater conservation and recycling by optimal size on-farm reservoir. Journal Resources, Conservation and Recycling. 50(4) :459–474. https://doi.org/10.1016/ j.resconrec.2006.08.002
Sulistyaningrum D, Susanawati LD, Suharto B 2014. Pengaruh Karakteristik Fisika-Kimia Tanah Terhadap Nilai Indeks Erodibilitas Tanah dan Upaya Konservasi Lahan. Jurnal Sumberdaya Alam dan Lingkungan. (2014): 55–62.
Varol M, Gokot B, Bekleyen A, Sen B. 2012. Spatial and temporal variations in surface water quality of the dam reservoirs in the tigris river basin, turkey. Journal Catena 92(2012): 11–21. https://doi.org/ 10.1016/j.catena.2011.11.013
Viswanath NC, Kumar PGD, Ammad KK. 2015. Statistical analysis of quality of water in various water shed for kozhikode city, kerala, india. Journal Aquatic Procedia 4(2015): 1078–1085. https:// doi.org/10.1016/j.aqpro.2015.02.136
Wisser D, Frolking S, Douglas EM, Fekete BM, Schumann AH, Vorosmarty CJ. 2010. The significance of local water resources captured in small reservoirs for crop production – A global-scale analysis. Journal of Hydrology 384(3–4): 264–275. https://doi.org/10.1016/j.jhydrol.2009.07.032
Xu L, Li H, Liang X, Yao Y, Zhou L, Cui X 2012. Water quality parameters response to temperature change in small shallow lakes. Journal Physics and Chemistry of the Earth, Parts A/B/C. 47–48 (2012): 128–134. https://doi.org/10.1016/j.pce.2010.11.005
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