Soil Quality under Agroforestry Trees Pattern in Upper Citarum Watershed, Indonesia

Mulyono, Asep; Suriadikusumah, Abraham; Harriyanto, Rachmat; Djuwansah, Muhammad Rahman

doi:10.12911/22998993/93942

Artykuł - szczegóły

Tytuł artykułu

Soil Quality under Agroforestry Trees Pattern in Upper Citarum Watershed, Indonesia

Autorzy

Mulyono Asep , Suriadikusumah Abraham , Harriyanto Rachmat , Djuwansah Muhammad Rahman

Treść / Zawartość

Pełne teksty:

26_Mulyono_et al._Soil Quality_203-213.pdf

Pobierz

Identyfikatory

DOI

10.12911/22998993/93942

Warianty tytułu

Języki publikacji

Abstrakty

This paper discusses the setting up of a multivariate statistical method in selecting the useful soil quality indicators for soil quality assessment under agroforestry pattern. The of soil quality has been recognized as a tool to determine the sustainability of land resources, especially in agroforestry development. The study was carried out at Upper Citarum Watershed of Bandung district, West Java province, Indonesia. The soil samples were taken with purposive sampling under agroforestry pattern. Principal component analysis (PCA) was used as the multivariate statistical method to identify the minimum data set (MDS); scoring of each indicator, and data integration in the index of soil quality. The MDS consisted of four soil chemical indicators and represented 83.6% of the variability of data, i.e., pH, and exchangeable Calcium (exch Ca), organic Carbon (org C), and exchangeable Natrium (exch Na) respectively. The soil quality index (SQI) was categorized under agroforestry pattern as moderate. The artificial agroforestry-based coffee with an intercropping system (timber woods, multi purpose trees and horticultures) provides better soil quality.

Słowa kluczowe

soil quality agroforestry multivariate assessment PCA upper citarum watershed

Wydawca

Polskie Towarzystwo Inżynierii Ekologicznej
Lublin University of Technology

Czasopismo

Journal of Ecological Engineering

Rocznik

2019

Tom

Vol. 20, nr 1

Strony

203--213

Opis fizyczny

Bibliogr. 52 poz., rys., tab.

Twórcy

autor

Mulyono Asep

asepliwa@yahoo.co.id

Soil Science and Land Resources Department, Faculty of Agriculture, Padjadjaran University, Sumedang, 45363, West Java, Indonesia
Research Center for Geotechnology, Indonesian Institute of Sciences, Bandung, 40135, West Java, Indonesia

autor

Suriadikusumah Abraham

Soil Science and Land Resources Department, Faculty of Agriculture, Padjadjaran University, Sumedang, 45363, West Java, Indonesia

autor

Harriyanto Rachmat

Soil Science and Land Resources Department, Faculty of Agriculture, Padjadjaran University, Sumedang, 45363, West Java, Indonesia

autor

Djuwansah Muhammad Rahman

Research Center for Geotechnology, Indonesian Institute of Sciences, Bandung, 40135, West Java, Indonesia

Bibliografia

1. Acharya A.K. & Kafle N. 2009. Land degradation issues in Nepal and its managment through agroforestry. The Journal of Agriculture and Environment 10, 115–123.
2. Alzwar M., Akbar N.A., Bachri S. 1992. Geological Map of Garut and Pameungpeuk Sheet, West Java, scale 1:100.000. Bandung.
3. Andrews S., Karlen D., Cambardella C. 2004. The Soil Management Assessment Framework: A Quantitative Soil Quality Evaluation Method. Soil Science Society of America Journal 68, 1945–1962.
4. Aticho A. 2013. Evaluating Organic Carbon Storage Capacity of Forest Soil : Case Study in Kafa Zone Bita District, Southwestern Ethiopia. American Eurasian Journal of Agriculture and Environmental Science 13, 95–100.
5. Bi C.J., Chen Z.L., Wang J., Zhou D. 2013. Quantitative Assessment of Soil Health Under Different Planting Patterns and Soil Types. Pedosphere 23, 194–204.
6. Brejda J.J., Moorman T.B., Karlen D.L., Dao T.H. 2000. Identification of regional soil quality factors and indicators I. Central and Southern High Plains. Soil Science Society of America Journal 64, 2115–2124.
7. Bremner J.M., Sparks D.L., Page A.L., Helmke P.A., Loeppert R.H., Soltanpour P.N., Tabatabai M.A., Johnston C.T., Sumner M.E. 1996. Nitrogen-total. Methods of soil analysis. Part 3-Chemical methods. 1085–1121.
8. Cantú M.P., Becker A., Bedano J.C., Schiavo H.F. 2007. Soil quality evaluation using indicators and indices. Ciencia del Suelo 25, 173–178.
9. Chaidar A.N., Soekarno I., Wiyono A., Nugroho J. 2017. Spatial analysis of erosion and land criticality of the upstream citarum watershed. International Journal of GEOMATE 13, 133–140.
10. Combe J. & Budowski G. 1979. Classification of agro-forestry techniques. In: de las Salas G. (Ed.). Proceedings of the Workshop on Agroforestry Systems in Latin America CATIE. Turialba, Costa Rica, 17–47.
11. De Foresta H. & Michon G. 1996. The agroforest alternative to Imperata grasslands: when small-holder agriculture and forestry reach sustainability. Agroforestry Systems 36, 105–120.
12. Doran J.W. & Parkin T.B. 1994. Defining and assessing soil quality. In: Doran, J.W.,Coleman, D.C., Bezdicek, D.F., Stewart, B.A. (Eds.), Defining Soil Quality for aSustainable Environment. SSSA Spec. Publ. 35. ASA, Madison, WI, 3–21.
13. Emadi M., Baghernejad M., Memarian H.R. 2009. Effect of land-use change on soil fertility characteristics within water-stable aggregates of two cultivated soils in northern Iran. Land Use Policy 26, 452–457.
14. Govaerts B., Sayre K.D., Deckers J. 2006. A minimum data set for soil quality assessment of wheat and maize cropping in the highlands of Mexico. Soil and Tillage Research 87, 163–174.
15. Hairiah K., Sulistyani H., Suprayogo D., Purnomosidhi P., Widodo R.H., Van Noordwijk M. 2006. Litter layer residence time in forest and coffee agroforestry systems in Sumberjaya, West Lampung. Forest Ecology and Management 224, 45–57.
16. Hammer Ø., Harper D.A.T., Ryan P.D. 2001. PAST: Paleontological statistics sofware package for education and data analysis. Palaeontologia Electronica 4, 1–9.
17. Hesse P.R. 1971. A textbook of soil chemical analysis, first ed. Chemical Publishing Co., New York.
18. Indonesian Soil Research Institute. 2005. Soil Chemical, Crop, Water and Fertilizer Analysis. Soil Research Institute, Research Agency and Agricultural Development, Ministry of Agriculture, Jakarta.
19. Jin Z., Li Z., Li Q., Hu Q., Yang R., Tang H., Li M., Huang B., Zhang J., Li G. 2015. Canonical correspondence analysis of soil heavy metal pollution, microflora and enzyme activities in the Pb-Zn mine tailing dam collapse area of Sidi village, SW China. Environmental Earth Sciences 73, 267–274.
20. Karlen D.L., Ditzler C., Andrews S.S. 2003. Soil quality: Why and how? Geoderma 114, 145–156.
21. Karlen D.L., Gardner J.C., Rosek M.J. 1998. A soil quality framework for evaluating the impact of CRP. Journal of Production Agriculture 11, 56–60.
22. Kassa H., Dondeyne S., Poesen J., Frankl A., Nyssen, J. 2017. Impact of deforestation on soil fertility, soil carbon and nitrogen stocks: the case of the Gacheb catchment in the White Nile Basin, Ethiopia. Agriculture, Ecosystems & Environment 247, 273–282.
23. King K.F.S. 1979. Agroforestry and the utilisation of fragile ecosystems. Forest Ecology and Management 2, 161–168.
24. King K.F.S. 1976. Agri-silviculture (the taungya system). University of Ibadan, Ibadan (Nigeria). Department of Forestry.
25. Laishram J., Saxena K.G.G., Maikhuri R.K.K. & Rao, K.S.S. 2012. Soil Quality and Soil Health : A Review. International Journal of Ecology and Environmental Sciences 38, 19–37.
26. Lal R. 2004. Soil carbon sequestration impacts on global climate change and food security. Science 304, 1623–1627.
27. Larson W.E. & Pierce F.J. 1994. The dynamics of soil quality as a measurement of sustainable management. Defining soil quality for a sustainable environment 551, 37–51.
28. León J.D. & Osorio N.W. 2014. Role of litter turnover in soil quality in tropical degraded lands of Colombia. The Scientific World Journal 2014. article ID: 693981. Hindawi Publishing Corporation
29. Li P., Zhang T., Wang X. & Yu D. 2013. Development of biological soil quality indicator system for subtropical China. Soil and Tillage Research 126, 112–118.
30. Marinho E.B., de Oliveira A.L., Zandonadi D.B., Benedito L.E.C., de Souza R.B., de Figueiredo C.C. & Busato J.G. 2014. Organic matter pools and nutrient cycling in different coffee production systems in the Brazilian Cerrado. Agroforestry systems 88, 767–778.
31. Michon G. & de Foresta H. 1999. Agro-forests: incorporating a forest vision in agroforestry, in: Buck, L.E., J.P.L. and E.C.M.F. (Ed.), Agroforestry in Sustainable Agricultural Systems. CRC Press, Lewis Publishers, pp. 381–406.
32. Mikkelsen R. 2010. Soil and fertilizer magnesium. Better crops 94, 26–28.
33. Ministry of Agriculture. 2015 Integrated Land Conservation Development Management Support. Land Expansion Directorate. Indonesia Ministry of Agriculture.
34. Mohammed A. & Bekele L. 2014. Changes in Carbon Stocks and Sequestration Potential under Native Forest and Adjacent Land use Systems at Gera, South-Western Ethiopia. Global Journal of Science Frontier Research: D Agriculture and Veterinary 14, 11–19.
35. Nair P.K.R. 1998. Directions in tropical agroforestry research: past, present, and future, in: Directions in Tropical Agroforestry Research. Springer, 223–245.
36. Olsen S.R. 1954. Estimation of available phosphorus in soils by extraction with sodium bicarbonate. United States Department Of Agriculture; Washington.
37. Parikesit, Takeuchi K., Tsunekawa A., Abdoellah O.S. 2005. Kebon tatangkalan: A disappearing agroforest in the Upper Citarum Watershed, West Java, Indonesia. Agroforestry Systems 63, 171–182.
38. Pimentel, M.S., De-Polli, H., Aquino, A.M. de, Correia, M.E.F., Rouws, J.R.C. 2011. Bioindicators of soil quality in coffee organic cultivation systems. Pesquisa Agropecuaria Brasileira 46, 545–552.
39. Qi Y., Darilek J.L., Huang B., Zhao Y., Sun W., Gu Z. 2009. Evaluating soil quality indices in an agricultural region of Jiangsu Province, China. Geoderma 149, 325–334.
40. Raiesi F. & Beheshti A. 2014. Soil C turnover, microbial biomass and respiration, and enzymatic activities following rangeland conversion to wheat-alfalfa cropping in a semi-arid climate. Environmental Earth Sciences 72, 5073–5088.
41. Saviozzi A., Levi-Minzi R., Cardelli R., Riffaldi R. 2001. A comparison of soil quality in adjacent cultivated, forest and native grassland soils. Plant and Soil 233, 251–259.
42. Shukla M.K., Lal R., Ebinger M. 2006. Determining soil quality indicators by factor analysis. Soil and Tillage Research 87, 194–204.
43. Silitonga P.H. 1973. Geological Map of Bandung Sheet, West Java, Scale 1:100.000. Bandung.
44. Soil and Agroclimate Research Center. 1993. Soil Map of Citarum Watershed, West Java, Scale 1:100.000. Bogor.
45. Soil Survey Staff. 2014. Keys to Soil Taxonomy. 12th edition, USDA. Soil Conservation Service.
46. Spohn M. & Giani L. 2011. Impacts of land use change on soil aggregation and aggregate stabilizing compounds as dependent on time. Soil Biology and Biochemistry 43, 1081–1088.
47. Supriyadi S., Purwanto P., Sarijan A., Mekiuw Y., Ustiatik R., Prahesti R.R. 2017. The assessment of soil quality at paddy fields in Merauke, Indonesia. Bulgarian Journal of Agricultural Science 23, 443–448.
48. Tscharntke T., Clough, Y., Bhagwat S.A., Buchori D., Faust H., Hertel D., Hölscher D., Juhrbandt J., Kessler M., Perfecto I. 2011. Multifunctional shadetree management in tropical agroforestry landscapes – a review. Journal of Applied Ecology 48, 619–629.
49. Tully K.L., Lawrence D., Wood S.A. 2013. Organically managed coffee agroforests have larger soil phosphorus but smaller soil nitrogen pools than conventionally managed agroforests. Biogeochemistry 115, 385–397.
50. Walky A. & Black I.A. 1934. An examination of Degtjareff method for determining soil organic matter and proposed modification of the Chromic acid titration method. Journal Soil Science 37, 29–38.
51. Wang Y., Chang S.X., Fang S., Tian, Y. 2014. Contrasting decomposition rates and nutrient release patterns in mixed vs singular species litter in agroforestry systems. Journal of Soils and Sediments 14, 1071–1081.
52. Young A. 1989. Agroforestry for soil conservation. Science and Practice of Agroforestry No. 4, ICRAFT, Nairobi.

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-6df97d1d-4b08-47ac-bfe6-ce504205cab1