Details

PDF BIBTEX RIS

Title

Spatial-temporal heterogeneity and driving factors of water yield services in Citarum river basin unit, West Java, Indonesia

Journal title

Archives of Environmental Protection

Yearbook

2023

Volume

vol. 49

Issue

No 1

Affiliation

Nahib, Irmadi : Research Center for Geospatial, Research Organization for Earth Sciences and Maritime,National Research and Innovation Agency, Cibinong Science Center,Jl. Raya Jakarta-Bogor Km 46, Cibinong 16911, Indonesia ; Ambarwulan, Wiwin : Research Center for Geospatial, Research Organization for Earth Sciences and Maritime,National Research and Innovation Agency, Cibinong Science Center,Jl. Raya Jakarta-Bogor Km 46, Cibinong 16911, Indonesia ; Sutrisno, Dewayany : Research Center for Geospatial, Research Organization for Earth Sciences and Maritime,National Research and Innovation Agency, Cibinong Science Center,Jl. Raya Jakarta-Bogor Km 46, Cibinong 16911, Indonesia ; Darmawan, Mulyanto : Research Center for Geospatial, Research Organization for Earth Sciences and Maritime,National Research and Innovation Agency, Cibinong Science Center,Jl. Raya Jakarta-Bogor Km 46, Cibinong 16911, Indonesia ; Suwarno, Yatin : Research Center for Geospatial, Research Organization for Earth Sciences and Maritime,National Research and Innovation Agency, Cibinong Science Center,Jl. Raya Jakarta-Bogor Km 46, Cibinong 16911, Indonesia ; Rahadiati, Ati : Research Center for Geospatial, Research Organization for Earth Sciences and Maritime,National Research and Innovation Agency, Cibinong Science Center,Jl. Raya Jakarta-Bogor Km 46, Cibinong 16911, Indonesia ; Suryanta, Jaka : Research Center for Geospatial, Research Organization for Earth Sciences and Maritime,National Research and Innovation Agency, Cibinong Science Center,Jl. Raya Jakarta-Bogor Km 46, Cibinong 16911, Indonesia ; Prihanto, Yosef : Research Center for Geospatial, Research Organization for Earth Sciences and Maritime,National Research and Innovation Agency, Cibinong Science Center,Jl. Raya Jakarta-Bogor Km 46, Cibinong 16911, Indonesia ; Rudiastuti, Aninda W. : Research Center for Geospatial, Research Organization for Earth Sciences and Maritime,National Research and Innovation Agency, Cibinong Science Center,Jl. Raya Jakarta-Bogor Km 46, Cibinong 16911, Indonesia ; Gaol, Yustisi Lumban : Research Center for Geospatial, Research Organization for Earth Sciences and Maritime,National Research and Innovation Agency, Cibinong Science Center,Jl. Raya Jakarta-Bogor Km 46, Cibinong 16911, Indonesia

Authors

Nahib, Irmadi ; Ambarwulan, Wiwin ; Sutrisno, Dewayany ; Darmawan, Mulyanto ; Suwarno, Yatin ; Rahadiati, Ati ; Suryanta, Jaka ; Prihanto, Yosef ; Rudiastuti, Aninda W. ; Gaol, Yustisi Lumban

Keywords

water yield ; climate ; land use land cover ; InVEST Model ; geographically weighted regression ; socio-ecological model

Divisions of PAS

Nauki Techniczne

Coverage

3-24

Publisher

Polish Academy of Sciences

Bibliography

  1. Ambarwulan, W., Nahib, I., Widiatmaka, W., Suryanta, J., Munajati, S. L., Suwarno, Y., Turmudi T, Darmawan M. & Sutrisno, D. (2021). Using Geographic Information Systems and the Analytical Hierarchy Process for Delineating Erosion-Induced Land Degradation in the Middle Citarum Sub-Watershed, Indonesia. Frontiers in Environmental Science, 9, 710570. DOI:10.3389/fenvs.2021.71057
  2. Badan Informasi Geospasial. (2015). Pemetaan Dinamika Sumberdaya Alam Terpadu Wilayah Sungai Citarum; [Mapping of the Dynamics of Integrated Natural Resources of the Citarum River Basin]; Cibinong.
  3. Bai, Y., Chen, Y., Alatalo, J.M., Yang, Z. & Jiang, B. (2020). Scale Effects on the Relationships between Land Characteristics and Ecosystem Services- a Case Study in Taihu Lake Basin, China. Sci. Total Environ., 716, DOI:10.1016/j.scitotenv.2020.137083
  4. Balai Besar Wilayah Sungai Citarum-Ciliwung (BBWS Citarum Ciliwung). Profil BBWS Citarum [Profile of BBWS Citarum]. (http://sda.pu.go.id/balai/bbwscitarum/profil-bbws-citarum/) (09.03. 2022)
  5. Balist, J., Malekmohammadi, B., Jafari, H. R., Nohegar, A. & Geneletti, D. (2022). Detecting land use and climate impacts on water yield ecosystem service in arid and semi-arid areas. A study in Sirvan River Basin-Iran. Applied Water Science, 12(1), pp. 1-14. DOI:10.1007/s13201-021-01545-8
  6. Barbieri, M., Barberio, M. D., Banzato, F., Billi, A., Boschetti, T., Franchini, S. & Petitta, M. (2021). Climate change and its effect on groundwater quality. Environmental Geochemistry and Health, 1-12. DOI:10.1007/s10653-021-01140-5
  7. Bin, L., Xu, K., Xu, X., Lian, J. & Ma, C. (2018). Development of a Landscape Indicator to Evaluate the Effect of Landscape Pattern on Surface Runoff in the Haihe River Basin. J. Hydrol, 566, pp. 546–557. DOI:10.1016/j.jhydrol.2018.09.045
  8. Borowski, P. F. (2020). Nexus between water, energy, food and climate change as challenges facing the modern global, European and Polish economy. AIMS Geosci, 6, pp. 397-421. DOI:10.3934/geosci.2020022
  9. Bucała-Hrabia, A. (2018). Land use changes and their catchment-scale environmenta limpact in the Polish Western Carpathians during transition from centrally planned to free-market economics. Geographia Polonica, 91(2), pp. 171-196. DOI:10.24425/aep.2022.140767
  10. Cao, S., Chen, L. & Yu, X. (2009). Impact of China's Grain for Green Project on the landscape of vulnerable arid and semi‐arid agricultural regions: A case study in northern Shaanxi Province. Journal of Applied Ecology, 46(3), pp. 536-543.
  11. Caraka, R. E., Chen, R. C., Bakar, S. A., Tahmid, M., Toharudin, T., Pardamean, B. & Huang, S. W. (2020). Employing best input SVR robust lost function with nature-inspired metaheuristics in wind speed energy forecasting. IAENG Int. J. Comput. Sci, 47(3), pp. 572-584.
  12. Chander, G., Markham, B. L. & Helder, D. L. (2009). Summary of current radiometric calibration coefficients for Landsat MSS, TM, ETM+, and EO-1 ALI sensors. Remote sensing of environment, 113(5), pp. 893-903.
  13. Deslatte, A., Szmigiel-Rawska, K., Tavares, A. F., Ślawska, J., Karsznia, I. & Łukomska, J. (2022). Land use institutions and social-ecological systems: A spatial analysis of local landscape changes in Poland. Land Use Policy, 114, 105937. DOI:10.1016/j.landusepol.2021.105937
  14. Dinka, M. O. & Chaka, D. D. (2019). Analysis of land use/land cover change in Adei watershed, Central Highlands of Ethiopia. Journal of water and land development. DOI:10.2478/jwld-2019-0038
  15. Dissanayake, D., Morimoto, T. & Ranagalage, M. (2019). Accessing the Soil Erosion Rate Based on RUSLE Model for Sustainable Land Use Management: A Case Study of the Kotmale Watershed, Sri Lanka. Springer International Publishing; Vol. 5, pp. 291–306. DOI:10.1007/s40808-018-0534-x
  16. Ermida, S.L., Patrícia Soares, Vasco Mantas, Frank-M. Göttsche & Isabel F. Trigo. (2020). Google Earth Engine Open-Source Code for Land Surface Temperature Estimation from the Landsat Series. Remote Sens. 12, 1471. DOI:10.3390/rs12091471
  17. Fang, W., Huang, H., Yang, B. & Hu, Q. (2021). Factors on spatial heterogeneity of the grain production capacity in the major grain sales area in southeast China: Evidence from 530 Counties in Guangdong Province. Land, 10(2), 206. DOI:10.3390/land10020206
  18. Ferencz, B., Dawidek, J., & Bronowicka-Mielniczuk, U. (2022). Alteration of yield and springs number as an indicator of climate changes. Case study of Eastern Poland. Ecological Indicators, 138, 108798.
  19. Figueroa, A.J. & Smilovic, M. (2020). Groundwater irrigation and implication in the Nile river basin. In Global Groundwater (pp. 81-95). Elsevier. DOI:10.1016/B978-0-12-818172-0.00007-4
  20. Fotheringham, A.S., Brunsdon, C. & Charlton, M. (2002). Geographically Weighted Regression: The Analysis of Spatially Varying Relationships; ISBN 978-0-470-85525-6.
  21. Francis, R. & Bekera, B. (2014). A metric and frameworks for resilience analysis of engineered and infrastructure systems. Reliability engineering & system safety, 121, pp. 90-103.
  22. Fu, B.P. (1981). On the Calculation of the Evaporation from Land Surface. Sci. Atmos. Sin.
  23. Gentilucci, M., Bufalini, M., Materazzi, M., Barbieri, M., Aringoli, D., Farabollini, P. & Pambianchi, G. (2021). Calculation of Potential Evapotranspiration and Calibration of the Hargreaves Equation Using Geostatistical Methods over the Last 10 Years in Central Italy. Geosci, 11, DOI:10.3390/geosciences11080348
  24. Glaser, M., Krause, G., Ratter, B. & Welp, M. (2008) Human-Nature-Interaction in the Anthropocene. Potential of Social-Ecological Systems Analysis. [Website], Available from: file:///C:/Users/USER/Downloads/10.4324_9780203123195_previewpdf.pdf
  25. (28.07.2022) DOI:10.1111/j.1365-2664.2008.01605.x
  26. Goldameir, N. E., Djuraidah, A. & Wigena, A. H. (2015). Quantile Spline Regression on Statistical Downscaling Model to Predict Extreme Rainfall in Indramayu. Applied Mathematical Sciences, 9(126), pp. 6263-6272.
  27. Gollini, I., Lu, B., Charlton, M., Brunsdon, C., Harris, P., Gollini, I., Lu, B., Charlton, M., Brunsdon, C. & Harris, P. (2015). GWmodel : An R Package for Exploring Spatial Heterogeneity. J. Stat. Softw, 63, pp. 1–50, DOI:10.1080/10095020.2014.917453
  28. Gosal, A. S., Evans, P. M., Bullock, J. M., Redhead, J., Charlton, M. B., Cord, A. F. Johnson, A. & Ziv, G. (2022). Understanding the accuracy of modelled changes in freshwater provision over time. Science of the Total Environment, 833, 155042. DOI:10.1016/j.scitotenv.2022.155042
  29. Gwate, O., Dube, H., Sibanda, M., Dube, T., Chisadza, B. & Nyikadzino, B. (2022). Understanding the influence of land cover change and landscape pattern change on evapotranspiration variations in Gwayi catchment of Zimbabwe. Geocarto International, 1-17. DOI:10.1080/10106049.2022.2032386
  30. Hamel, P. & Guswa, A.J. (2015). Uncertainty Analysis of a Spatially Explicit Annual Water-Balance Model: Case Study of the Cape Fear Basin, North Carolina. Hydrol. Earth Syst. Sci, 19, pp. 839–853. DOI:10.5194/hess-19-839-2015
  31. Horton, R. E. (1933). The role of infiltration in the hydrologic cycle. Eos. Transactions American Geophysical Union, 14(1), pp. 446-460.
  32. Hasan, M. (2011). A policy model for sustainable water resources management of Citarum River Basin. Disertasi. Sekolahg pasca Sarjana IPb. http://repository.ipb.ac.id/handle/123456789/53626
  33. Hu, W., Li, G., Gao, Z., Jia, G., Wang, Z. & Li, Y. (2020). Assessment of the impact of the Poplar Ecological Retreat Project on water conservation in the Dongting Lake wetland region using the InVEST model. Science of the Total Environment, 733, 139423. DOI:10.1016/j.scitotenv.2020.139423
  34. Kementerian Pekerjaan Umum. Rencana pengelolaan sumber daya air Wilayah Sungai Citarum Tahun 2016 [Management Plan of Citarum River Basin]. Available online: https://www.coursehero.com/file/60545948/Rencana-Pengelolaan-Sumber-Daya-Air-WS-Citarumpdf/ (12.03.2022).
  35. Kubiak-Wójcicka, K. & Machula, S. (2020). Influence of climate changes on the state of water resources in Poland and their usage. Geosciences, 10(8), 312. DOI:10.3390/geosciences10080312
  36. Łabędzki, L. & Bąk, B. (2017). Impact of meteorological drought on crop water deficit and crop yield reduction in Polish agriculture. Journal of Water and Land Development, 34(1), 181. DOI: 10.1515/jwld-2017-0052
  37. Li, P., Li, H., Yang, G., Zhang, Q. & Diao, Y. (2018). Assessing the hydrologic impacts of land use change in the Taihu Lake Basin of China from 1985 to 2010. Water, 10(11), 1512. DOI:10.3390/w10111512
  38. Li, Y., Sun, Y., Li, J. & Gao, C. (2020). Socioeconomic drivers of urban heat island effect: Empirical evidence from major Chinese cities. Sustainable Cities and Society, 63, 102425. DOI: 10.1016/j.scs.2020.102425
  39. Lian, X. H., Qi, Y., Wang, H. W., Zhang, J. L. & Yang, R. (2019). Assessing changes of water yield in Qinghai Lake Watershed of China. Water, 12(1), 11. DOI: 10.3390/w12010011
  40. Montazar, A., Krueger, R., Corwin, D., Pourreza, A., Little, C., Rios, S. & Snyder, R.L. (2020). Determination of Actual Evapotranspiration and Crop Coefficients of California Date Palms Using the Residual of Energy Balance Approach. Water (Switzerland), 12, DOI:10.3390/w12082253
  41. Muhammed, H. H., Mustafa, A. M. & Kolerski, T. (2021). Hydrological responses to large-scale changes in land cover of river watershed. Journal of Water and Land Development, (50). DOI:10.24425/jwld.2021.138166
  42. Nahib, I., Ambarwulan, W., Rahadiati, A., Munajati, S.L., Prihanto, Y., Suryanta, J., Turmudi, T. Nuswantoro, A.C (2021). Assessment of the Impacts of Climate and LULC Changes on the Water Yield in the Citarum River Basin, West Java Province, Indonesia. Sustain. 13, DOI:10.3390/su13073919
  43. Nahib, I., Amhar, F., Wahyudin, Y., Ambarwulan, W., Suwarno, Y., Suwedi, N., Turmudi T, Cahyana. D., Nugroho, N.P.,Ramadhani, F., Siagian, D.R., Suryanta, J., Rudiastuti. A.W., Lumban-Gaol, Y., Karolinoerita, V., Rifaie. F. & Munawaroh, M. (2023). Spatial-Temporal Changes in Water Supply and Demand in the Citarum Watershed, West Java, Indonesia Using a Geospatial Approach. Sustainability, 15(1), 562. DOI:10.3390/su15010562
  44. Nie, Y., Avraamidou, S., Xiao, X., Pistikopoulos, E. N., Li, J., Zeng, Y. Song, F. Yu, J. & Zhu, M. (2019). A Food-Energy-Water Nexus approach for land use optimization. Science of The Total Environment, 659, pp.7-19. DOI: 10.1016/j.scitotenv.2018.12.242
  45. Pei, H., Liu, M., Shen, Y., Xu, K., Zhang, H., Li, Y. & Luo, J. (2022). Quantifying impacts of climate dynamics and land-use changes on water yield service in the agro-pastoral ecotone of northern China. Science of The Total Environment, 809, p.151153. DOI:10.1016/j.scitotenv.2021.151153
  46. Pokhrel, Y. N., Koirala, S., Yeh, P. J. F., Hanasaki, N., Longuevergne, L., Kanae, S. & Oki, T. (2015). Incorporation of groundwater pumping in a global L and Surface Model with the representation of human impacts. Water Resources Research, 51(1), pp. 78-96. DOI:10.1002/2014WR015602
  47. Redhead, J. W., Stratford, C., Sharps, K., Jones, L., Ziv, G., Clarke, D., Oliver, T.H. & Bullock, J. M. (2016). Empirical validation of the InVEST water yield ecosystem service model at a national scale. Science of the Total Environment, 569, pp. 1418-1426. DOI:10.1016/j.scitotenv.2016.06.227
  48. Rouholahnejad Freund, E., Abbaspour, K. C. & Lehmann, A. (2017). Water resources of the Black Sea catchment under future climate and landuse change projections. Water, 9(8), 598.
  49. Sawicka, B., Barbaś, P., Pszczółkowski, P., Skiba, D., Yeganehpoor, F. & Krochmal-Marczak, B. (2022). Climate Changes in Southeastern Poland and Food Security. Climate, 10(4), 57. DOI:10.3390/cli10040057
  50. Saxton, K.E. (2009) Soil Water Characteristics: Hydraulic Properties Calculator. Available online: https://hrsl.ba.ars.usda.gov/soilwater/Index.htm (13.02.2022)
  51. Scown, M. W., Flotemersch, J. E., Spanbauer, T. L., Eason, T., Garmestani, A. & Chaffin, B. C. (2017). People and water: Exploring the social-ecological condition of watersheds of the United States. Elementa: Science of the Anthropocene, 5. DOI:10.1525/elementa.189
  52. Septiangga, B. & Juniar, R. 2016. Aplikasi citra Landsat 8 untuk penentuan persebaran titik panas sebagai indikasi peningkatan temperatur Kota Yogyakarta. Conference paper on National Meteorologi and Climatologi, Jakarta, Indonesia, March 2016
  53. Sharp, R., Tallis, H.T., Ricketts, T., Guerry, A.D., Wood, S.A., Chaplin-Kramer, R. & Bierbower, W. (2015). INVEST 3.1.3 User’s Guide; California US, https://invest-userguide.readthedocs.io/en/3.5.0/ (12.08.2021)
  54. Sholeh, M., Pranoto, P., Budiastuti, S. & Sutarno, S. (2018). Analysis of Citarum River Pollution Indicator Using Chemical, Physical, and Bacteriological Methods; Vol. 2049;. In AIP Conference Proceedings (Vol. 2049, No. 1, p. 020068). AIP Publishing LLC. DOI:10.1063/1.5082473
  55. Siswanto, S.Y. & Francés, F. (2019). How Land Use/Land Cover Changes Can Affect Water, Flooding and Sedimentation in a Tropical Watershed: A Case Study Using Distributed Modeling in the Upper Citarum Watershed, Indonesia. Environ. Earth Sci. 78, pp. 1–15. DOI:10.1007/s12665-019-8561-0
  56. Sriyanti, M. G. Indonesia Climate Change Sectoral Roadmap-ICCSR (Synthesis Report). FAO. 2009. 9789793764498. Jakarta: Badan Perencanaan Pembangunan Nasional, 2010
  57. Sun, Y.-J. Wang, J.-F., Zhang, R.-H., Gillies, R. R., Xue, Y. & Bo. Y.-C.(2015). Air temperature retrieval from remote sensing data based on thermodynamics. Theoretical and Applied Climatology. 80, pp. 37–48. DOI:10.1007/s00704-004-0079-y
  58. Sun, X.Y., Guo, H.W., Lian, L., Liu, F. & Li, B. (2017). The Spatial Pattern of Water Yield and Its Driving Factors in Nansi Lake Basin. J. Nat. Resour, 32, pp. 669–679. DOI:10.11849/zrzyxb.20160460
  59. Suroso, D., Setiawan, B. & Abdurahman, O. (2010). Impact of Climate Change on the Sustainability of Water Supply in Indonesia and The 714 Proposed Adaptation Activities. Int. Symp. Exhib. Short Course Geotech. Geosynth. Eng. Challenges Oppor. Clim. Chang. 2010
  60. Szarek-Gwiazda, E. & Gwiazda, R. (2022). Impact of flow and damming on water quality of the mountain Raba River (southern Poland)‒long-term studies. Archives of Environmental Protection, 48(1), pp. 31-40. DOI:10.24425/aep.2022.140543
  61. Szwagrzyk, M., Kaim, D., Price, B., Wypych, A., Grabska, E. & Kozak, J. (2018). Impact of forecasted land use changes on flood risk in the Polish Carpathians. Natural Hazards, 94(1), pp. 227-240. DOI:10.1007/s11069-018-3384-y
  62. Szwed, M., Karg, G., Pińskwar, I., Radziejewski, M., Graczyk, D., Kędziora, A. & Kundzewicz, Z. W. (2010). Climate change and its effect on agriculture, water resources and human health sectors in Poland. Natural Hazards and Earth System Sciences, 10(8), pp. 1725-1737. DOI:10.5194/nhess-10-1725-2010, 2010.
  63. Van Paddenburg, A., Bassi, A., Buter, E., Cosslett, C. & Dean, A. A. (2012). Heart of Borneo: Investing in Nature for a Green Economy: A Synthesis Report;
  64. Wang, C., Du, S., Wen, J., Zhang, M., Gu, H., Shi, Y. & Xu, H. (2017). Analyzing Explanatory Factors of Urban Pluvial Floods in Shanghai Using Geographically Weighted Regression. Stoch. Environ. Res. Risk Assess, 31, DOI:10.1007/s00477-016-1242-6 Water 2020, 12, 11.
  65. Wei, P., Chen, S., Wu, M., Deng, Y., Xu, H., Jia, Y. & Liu, F. (2021). Using the Invest Model to Assess the Impacts of Climate and Land Use Changes on Water Yield in the Upstream Regions of the Shule River Basin. Water (Switzerland), 13. DOI:10.3390/w13091250
  66. Worldmeter. Indonesia Water https://www.worldometers.info/water/indonesia-water/#water-use (26.05.2022)
  67. WWAP (World Water Assessment Programme). 2021. World Water Development Report Volume 4: Managing Water under Uncertainty and Risk; 2012; Vol. 1.
  68. Xu, J., Liu, S., Zhao, S., Wu, X., Hou, X., An, Y. & Shen, Z. (2019). Spatiotemporal dynamics of water yield service and its response to urbanisation in the Beiyun river Basin, Beijing. Sustainability, 11(16), 4361.
  69. Yang, C., Fu, M., Feng, D., Sun, Y. & Zhai, G. (2021). Spatiotemporal Changes in Vegetation Cover and Its Influencing Factors in the Loess Plateau of China Based on the Geographically Weighted Regression Model. Forests, 12. DOI:10.3390/f12060673
  70. Yang, X., Chen, R., Meadows, M.E., Ji, G. & Xu, J. (2020). Modelling Water Yield with the InVEST Model in a Data Scarce Region of Northwest China. Water Sci. Technol. Water Supply, 20, pp. 1035–1045, DOI:10.2166/ws.2020.026
  71. Young, M. & Esau, C. (Eds.). (2015). Investing in water for a green economy: Services, infrastructure, policies and management. Routledge.
  72. Yudistiro, Kusratmoko, E. & Semedi, J.M. (2019). Water Availability in Patuha Mountain Region Using InVEST Model “Hydropower Water Yield.” In Proceedings of the E3S Web of Conferences; Vol. 125. DOI:10.1051/e3sconf/2019125010
  73. Zhang, L., Hickel, K., Dawes, W.R., Chiew, F.H.S., Western, A.W. & Briggs, P.R. (2004). A Rational Function Approach for Estimating Mean Annual Evapotranspiration. Water Resour. Res, 40, pp. 1–14, DOI:10.1029/2003WR002710
  74. Zhang, X., Zhang, G., Long, X., Zhang, Q., Liu, D., Wu, H. & Li, S. (2021). Identifying the Drivers of Water Yield Ecosystem Service: A Case Study in the Yangtze River Basin, China. Ecol. Indic, 132. DOI:10.1016/j.ecolind.2021.108304
  75. Zemełka, G., Kryłów, M. & Szalińska van Overdijk, E. (2019). The potential impact of land use changes on heavy metal contamination in the drinking water reservoir catchment (Dobczyce Reservoir, south Poland). Archives of Environmental Protection, 45(2), pp.3-11. DOI:10.24425/aep.2019.127975 ;
  76. Ziexin, H. (2020). Impact of spatial land use change on green space and water yield in Batu Pahat, Johor (Doctoral dissertation, Universiti Malaysia Kelantan).

Date

17.03.2023

Type

Article

Identifier

DOI: 10.24425/aep.2023.144733

DOI

10.24425/aep.2023.144733

Abstracting & Indexing

Abstracting & Indexing


Archives of Environmental Protection is covered by the following services:


AGRICOLA (National Agricultural Library)

Arianta

Baidu

BazTech

BIOSIS Citation Index

CABI

CAS

DOAJ

EBSCO

Engineering Village

GeoRef

Google Scholar

Index Copernicus

Journal Citation Reports™

Journal TOCs

KESLI-NDSL

Naviga

ProQuest

SCOPUS

Reaxys

Ulrich's Periodicals Directory

WorldCat

Web of Science

×