MAPPING OF SOIL DEGRADATION POTENCY IN PADDY FIELD WONOGIRI, INDONESIA

Sustainability of paddy field becomes the main concern as the media of biomass production, thus it is needed a datum and information about land characteristics to find out its degradation. Mapping of soil degradation potency in paddy field is an identification of initial soil condition to discover t...
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Autor*in:	Mujiyo [verfasserIn] Rahayu [verfasserIn] Reni Ustiatik [verfasserIn] Dhika Sri Anggrahini [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch ; Indonesisch

Erschienen:	2016

Schlagwörter:	paddy soil soil degradation soil degradation mapping soil quality paddy soil mapping

Übergeordnetes Werk:	In: Sains Tanah: Journal of Soil Science and Agroclimatology - Sebelas Maret University, 2015, 13(2016), 1, Seite 25-30
Übergeordnetes Werk:	volume:13 ; year:2016 ; number:1 ; pages:25-30

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc Journal toc

Katalog-ID:	DOAJ063671069

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520			\|a Sustainability of paddy field becomes the main concern as the media of biomass production, thus it is needed a datum and information about land characteristics to find out its degradation. Mapping of soil degradation potency in paddy field is an identification of initial soil condition to discover the land degradation potency. Mapping was done by overlaying map of soil, slope, rainfall and land use with standard procedures to obtain its value and status of soil degradation potency. Area mapping is an effective land for biomass production (natural forest, mixed farm, savanna, paddy field, shrub and dry field) with approximately 43,291.00 hectares (ha) in Sidoharjo, Girimarto, Jatipurno, Jatisrono, Jatiroto, Tirtomoyo, Nguntoronadi and Ngadirojo District. The result shows that soil degradation potency (SDP) in Districts of Sidoharjo, Girimarto, Jatipurno, Jatisrono, Jatiroto, Tirtomoyo, Nguntoronadi and Ngadirojo are very low, low (DP II) 20,702.47 ha (47.82%), moderate (DP III) 15,823.80 ha (36,55%) and high (DP IV) 6,764.73 ha (15.63%). Paddy field covered 22,036.26 ha or about 50.90% of all area as effective biomass production, its SDP considers as low (DP II) 16,021.04 ha (37.01%) and moderate (DP III) 6,015.22 ha (13,89%). Paddy field has a low SDP because it is commonly lies on flat area and conservation method by the farmer is maintaining the paddy bund and terrace. This study needs an advanced study to identify actual SDP through detail verification in the field, and also support by soil sample analysis in the laboratory.
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allfields	(DE-627)DOAJ063671069 (DE-599)DOAJ44da09a5336046ddaf10a117d9bd1f86 DE-627 ger DE-627 rakwb eng ind S1-972 SB1-1110 Mujiyo verfasserin aut MAPPING OF SOIL DEGRADATION POTENCY IN PADDY FIELD WONOGIRI, INDONESIA 2016 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Sustainability of paddy field becomes the main concern as the media of biomass production, thus it is needed a datum and information about land characteristics to find out its degradation. Mapping of soil degradation potency in paddy field is an identification of initial soil condition to discover the land degradation potency. Mapping was done by overlaying map of soil, slope, rainfall and land use with standard procedures to obtain its value and status of soil degradation potency. Area mapping is an effective land for biomass production (natural forest, mixed farm, savanna, paddy field, shrub and dry field) with approximately 43,291.00 hectares (ha) in Sidoharjo, Girimarto, Jatipurno, Jatisrono, Jatiroto, Tirtomoyo, Nguntoronadi and Ngadirojo District. The result shows that soil degradation potency (SDP) in Districts of Sidoharjo, Girimarto, Jatipurno, Jatisrono, Jatiroto, Tirtomoyo, Nguntoronadi and Ngadirojo are very low, low (DP II) 20,702.47 ha (47.82%), moderate (DP III) 15,823.80 ha (36,55%) and high (DP IV) 6,764.73 ha (15.63%). Paddy field covered 22,036.26 ha or about 50.90% of all area as effective biomass production, its SDP considers as low (DP II) 16,021.04 ha (37.01%) and moderate (DP III) 6,015.22 ha (13,89%). Paddy field has a low SDP because it is commonly lies on flat area and conservation method by the farmer is maintaining the paddy bund and terrace. This study needs an advanced study to identify actual SDP through detail verification in the field, and also support by soil sample analysis in the laboratory. paddy soil soil degradation soil degradation mapping soil quality paddy soil mapping Agriculture S Agriculture (General) Plant culture Rahayu verfasserin aut Reni Ustiatik verfasserin aut Dhika Sri Anggrahini verfasserin aut In Sains Tanah: Journal of Soil Science and Agroclimatology Sebelas Maret University, 2015 13(2016), 1, Seite 25-30 (DE-627)1760632953 23561424 nnns volume:13 year:2016 number:1 pages:25-30 http://dx.doi.org/10.15608/stjssa.v13i1.481 kostenfrei https://doaj.org/article/44da09a5336046ddaf10a117d9bd1f86 kostenfrei http://jurnal.fp.uns.ac.id/index.php/tanah/article/view/481 kostenfrei https://doaj.org/toc/1412-3606 Journal toc kostenfrei https://doaj.org/toc/2356-1424 Journal toc kostenfrei GBV_USEFLAG_A SYSFLAG_A GBV_DOAJ AR 13 2016 1 25-30
spelling	(DE-627)DOAJ063671069 (DE-599)DOAJ44da09a5336046ddaf10a117d9bd1f86 DE-627 ger DE-627 rakwb eng ind S1-972 SB1-1110 Mujiyo verfasserin aut MAPPING OF SOIL DEGRADATION POTENCY IN PADDY FIELD WONOGIRI, INDONESIA 2016 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Sustainability of paddy field becomes the main concern as the media of biomass production, thus it is needed a datum and information about land characteristics to find out its degradation. Mapping of soil degradation potency in paddy field is an identification of initial soil condition to discover the land degradation potency. Mapping was done by overlaying map of soil, slope, rainfall and land use with standard procedures to obtain its value and status of soil degradation potency. Area mapping is an effective land for biomass production (natural forest, mixed farm, savanna, paddy field, shrub and dry field) with approximately 43,291.00 hectares (ha) in Sidoharjo, Girimarto, Jatipurno, Jatisrono, Jatiroto, Tirtomoyo, Nguntoronadi and Ngadirojo District. The result shows that soil degradation potency (SDP) in Districts of Sidoharjo, Girimarto, Jatipurno, Jatisrono, Jatiroto, Tirtomoyo, Nguntoronadi and Ngadirojo are very low, low (DP II) 20,702.47 ha (47.82%), moderate (DP III) 15,823.80 ha (36,55%) and high (DP IV) 6,764.73 ha (15.63%). Paddy field covered 22,036.26 ha or about 50.90% of all area as effective biomass production, its SDP considers as low (DP II) 16,021.04 ha (37.01%) and moderate (DP III) 6,015.22 ha (13,89%). Paddy field has a low SDP because it is commonly lies on flat area and conservation method by the farmer is maintaining the paddy bund and terrace. This study needs an advanced study to identify actual SDP through detail verification in the field, and also support by soil sample analysis in the laboratory. paddy soil soil degradation soil degradation mapping soil quality paddy soil mapping Agriculture S Agriculture (General) Plant culture Rahayu verfasserin aut Reni Ustiatik verfasserin aut Dhika Sri Anggrahini verfasserin aut In Sains Tanah: Journal of Soil Science and Agroclimatology Sebelas Maret University, 2015 13(2016), 1, Seite 25-30 (DE-627)1760632953 23561424 nnns volume:13 year:2016 number:1 pages:25-30 http://dx.doi.org/10.15608/stjssa.v13i1.481 kostenfrei https://doaj.org/article/44da09a5336046ddaf10a117d9bd1f86 kostenfrei http://jurnal.fp.uns.ac.id/index.php/tanah/article/view/481 kostenfrei https://doaj.org/toc/1412-3606 Journal toc kostenfrei https://doaj.org/toc/2356-1424 Journal toc kostenfrei GBV_USEFLAG_A SYSFLAG_A GBV_DOAJ AR 13 2016 1 25-30
allfields_unstemmed	(DE-627)DOAJ063671069 (DE-599)DOAJ44da09a5336046ddaf10a117d9bd1f86 DE-627 ger DE-627 rakwb eng ind S1-972 SB1-1110 Mujiyo verfasserin aut MAPPING OF SOIL DEGRADATION POTENCY IN PADDY FIELD WONOGIRI, INDONESIA 2016 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Sustainability of paddy field becomes the main concern as the media of biomass production, thus it is needed a datum and information about land characteristics to find out its degradation. Mapping of soil degradation potency in paddy field is an identification of initial soil condition to discover the land degradation potency. Mapping was done by overlaying map of soil, slope, rainfall and land use with standard procedures to obtain its value and status of soil degradation potency. Area mapping is an effective land for biomass production (natural forest, mixed farm, savanna, paddy field, shrub and dry field) with approximately 43,291.00 hectares (ha) in Sidoharjo, Girimarto, Jatipurno, Jatisrono, Jatiroto, Tirtomoyo, Nguntoronadi and Ngadirojo District. The result shows that soil degradation potency (SDP) in Districts of Sidoharjo, Girimarto, Jatipurno, Jatisrono, Jatiroto, Tirtomoyo, Nguntoronadi and Ngadirojo are very low, low (DP II) 20,702.47 ha (47.82%), moderate (DP III) 15,823.80 ha (36,55%) and high (DP IV) 6,764.73 ha (15.63%). Paddy field covered 22,036.26 ha or about 50.90% of all area as effective biomass production, its SDP considers as low (DP II) 16,021.04 ha (37.01%) and moderate (DP III) 6,015.22 ha (13,89%). Paddy field has a low SDP because it is commonly lies on flat area and conservation method by the farmer is maintaining the paddy bund and terrace. This study needs an advanced study to identify actual SDP through detail verification in the field, and also support by soil sample analysis in the laboratory. paddy soil soil degradation soil degradation mapping soil quality paddy soil mapping Agriculture S Agriculture (General) Plant culture Rahayu verfasserin aut Reni Ustiatik verfasserin aut Dhika Sri Anggrahini verfasserin aut In Sains Tanah: Journal of Soil Science and Agroclimatology Sebelas Maret University, 2015 13(2016), 1, Seite 25-30 (DE-627)1760632953 23561424 nnns volume:13 year:2016 number:1 pages:25-30 http://dx.doi.org/10.15608/stjssa.v13i1.481 kostenfrei https://doaj.org/article/44da09a5336046ddaf10a117d9bd1f86 kostenfrei http://jurnal.fp.uns.ac.id/index.php/tanah/article/view/481 kostenfrei https://doaj.org/toc/1412-3606 Journal toc kostenfrei https://doaj.org/toc/2356-1424 Journal toc kostenfrei GBV_USEFLAG_A SYSFLAG_A GBV_DOAJ AR 13 2016 1 25-30
allfieldsGer	(DE-627)DOAJ063671069 (DE-599)DOAJ44da09a5336046ddaf10a117d9bd1f86 DE-627 ger DE-627 rakwb eng ind S1-972 SB1-1110 Mujiyo verfasserin aut MAPPING OF SOIL DEGRADATION POTENCY IN PADDY FIELD WONOGIRI, INDONESIA 2016 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Sustainability of paddy field becomes the main concern as the media of biomass production, thus it is needed a datum and information about land characteristics to find out its degradation. Mapping of soil degradation potency in paddy field is an identification of initial soil condition to discover the land degradation potency. Mapping was done by overlaying map of soil, slope, rainfall and land use with standard procedures to obtain its value and status of soil degradation potency. Area mapping is an effective land for biomass production (natural forest, mixed farm, savanna, paddy field, shrub and dry field) with approximately 43,291.00 hectares (ha) in Sidoharjo, Girimarto, Jatipurno, Jatisrono, Jatiroto, Tirtomoyo, Nguntoronadi and Ngadirojo District. The result shows that soil degradation potency (SDP) in Districts of Sidoharjo, Girimarto, Jatipurno, Jatisrono, Jatiroto, Tirtomoyo, Nguntoronadi and Ngadirojo are very low, low (DP II) 20,702.47 ha (47.82%), moderate (DP III) 15,823.80 ha (36,55%) and high (DP IV) 6,764.73 ha (15.63%). Paddy field covered 22,036.26 ha or about 50.90% of all area as effective biomass production, its SDP considers as low (DP II) 16,021.04 ha (37.01%) and moderate (DP III) 6,015.22 ha (13,89%). Paddy field has a low SDP because it is commonly lies on flat area and conservation method by the farmer is maintaining the paddy bund and terrace. This study needs an advanced study to identify actual SDP through detail verification in the field, and also support by soil sample analysis in the laboratory. paddy soil soil degradation soil degradation mapping soil quality paddy soil mapping Agriculture S Agriculture (General) Plant culture Rahayu verfasserin aut Reni Ustiatik verfasserin aut Dhika Sri Anggrahini verfasserin aut In Sains Tanah: Journal of Soil Science and Agroclimatology Sebelas Maret University, 2015 13(2016), 1, Seite 25-30 (DE-627)1760632953 23561424 nnns volume:13 year:2016 number:1 pages:25-30 http://dx.doi.org/10.15608/stjssa.v13i1.481 kostenfrei https://doaj.org/article/44da09a5336046ddaf10a117d9bd1f86 kostenfrei http://jurnal.fp.uns.ac.id/index.php/tanah/article/view/481 kostenfrei https://doaj.org/toc/1412-3606 Journal toc kostenfrei https://doaj.org/toc/2356-1424 Journal toc kostenfrei GBV_USEFLAG_A SYSFLAG_A GBV_DOAJ AR 13 2016 1 25-30
allfieldsSound	(DE-627)DOAJ063671069 (DE-599)DOAJ44da09a5336046ddaf10a117d9bd1f86 DE-627 ger DE-627 rakwb eng ind S1-972 SB1-1110 Mujiyo verfasserin aut MAPPING OF SOIL DEGRADATION POTENCY IN PADDY FIELD WONOGIRI, INDONESIA 2016 Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Sustainability of paddy field becomes the main concern as the media of biomass production, thus it is needed a datum and information about land characteristics to find out its degradation. Mapping of soil degradation potency in paddy field is an identification of initial soil condition to discover the land degradation potency. Mapping was done by overlaying map of soil, slope, rainfall and land use with standard procedures to obtain its value and status of soil degradation potency. Area mapping is an effective land for biomass production (natural forest, mixed farm, savanna, paddy field, shrub and dry field) with approximately 43,291.00 hectares (ha) in Sidoharjo, Girimarto, Jatipurno, Jatisrono, Jatiroto, Tirtomoyo, Nguntoronadi and Ngadirojo District. The result shows that soil degradation potency (SDP) in Districts of Sidoharjo, Girimarto, Jatipurno, Jatisrono, Jatiroto, Tirtomoyo, Nguntoronadi and Ngadirojo are very low, low (DP II) 20,702.47 ha (47.82%), moderate (DP III) 15,823.80 ha (36,55%) and high (DP IV) 6,764.73 ha (15.63%). Paddy field covered 22,036.26 ha or about 50.90% of all area as effective biomass production, its SDP considers as low (DP II) 16,021.04 ha (37.01%) and moderate (DP III) 6,015.22 ha (13,89%). Paddy field has a low SDP because it is commonly lies on flat area and conservation method by the farmer is maintaining the paddy bund and terrace. This study needs an advanced study to identify actual SDP through detail verification in the field, and also support by soil sample analysis in the laboratory. paddy soil soil degradation soil degradation mapping soil quality paddy soil mapping Agriculture S Agriculture (General) Plant culture Rahayu verfasserin aut Reni Ustiatik verfasserin aut Dhika Sri Anggrahini verfasserin aut In Sains Tanah: Journal of Soil Science and Agroclimatology Sebelas Maret University, 2015 13(2016), 1, Seite 25-30 (DE-627)1760632953 23561424 nnns volume:13 year:2016 number:1 pages:25-30 http://dx.doi.org/10.15608/stjssa.v13i1.481 kostenfrei https://doaj.org/article/44da09a5336046ddaf10a117d9bd1f86 kostenfrei http://jurnal.fp.uns.ac.id/index.php/tanah/article/view/481 kostenfrei https://doaj.org/toc/1412-3606 Journal toc kostenfrei https://doaj.org/toc/2356-1424 Journal toc kostenfrei GBV_USEFLAG_A SYSFLAG_A GBV_DOAJ AR 13 2016 1 25-30
language	English Indonesian
source	In Sains Tanah: Journal of Soil Science and Agroclimatology 13(2016), 1, Seite 25-30 volume:13 year:2016 number:1 pages:25-30
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topic_facet	paddy soil soil degradation soil degradation mapping soil quality paddy soil mapping Agriculture S Agriculture (General) Plant culture
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Mapping of soil degradation potency in paddy field is an identification of initial soil condition to discover the land degradation potency. Mapping was done by overlaying map of soil, slope, rainfall and land use with standard procedures to obtain its value and status of soil degradation potency. Area mapping is an effective land for biomass production (natural forest, mixed farm, savanna, paddy field, shrub and dry field) with approximately 43,291.00 hectares (ha) in Sidoharjo, Girimarto, Jatipurno, Jatisrono, Jatiroto, Tirtomoyo, Nguntoronadi and Ngadirojo District. The result shows that soil degradation potency (SDP) in Districts of Sidoharjo, Girimarto, Jatipurno, Jatisrono, Jatiroto, Tirtomoyo, Nguntoronadi and Ngadirojo are very low, low (DP II) 20,702.47 ha (47.82%), moderate (DP III) 15,823.80 ha (36,55%) and high (DP IV) 6,764.73 ha (15.63%). Paddy field covered 22,036.26 ha or about 50.90% of all area as effective biomass production, its SDP considers as low (DP II) 16,021.04 ha (37.01%) and moderate (DP III) 6,015.22 ha (13,89%). Paddy field has a low SDP because it is commonly lies on flat area and conservation method by the farmer is maintaining the paddy bund and terrace. 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callnumber-first	S - Agriculture
author	Mujiyo
spellingShingle	Mujiyo misc S1-972 misc SB1-1110 misc paddy soil misc soil degradation misc soil degradation mapping misc soil quality misc paddy soil mapping misc Agriculture misc S misc Agriculture (General) misc Plant culture MAPPING OF SOIL DEGRADATION POTENCY IN PADDY FIELD WONOGIRI, INDONESIA
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topic_title	S1-972 SB1-1110 MAPPING OF SOIL DEGRADATION POTENCY IN PADDY FIELD WONOGIRI, INDONESIA paddy soil soil degradation soil degradation mapping soil quality paddy soil mapping
topic	misc S1-972 misc SB1-1110 misc paddy soil misc soil degradation misc soil degradation mapping misc soil quality misc paddy soil mapping misc Agriculture misc S misc Agriculture (General) misc Plant culture
topic_unstemmed	misc S1-972 misc SB1-1110 misc paddy soil misc soil degradation misc soil degradation mapping misc soil quality misc paddy soil mapping misc Agriculture misc S misc Agriculture (General) misc Plant culture
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title	MAPPING OF SOIL DEGRADATION POTENCY IN PADDY FIELD WONOGIRI, INDONESIA
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title_full	MAPPING OF SOIL DEGRADATION POTENCY IN PADDY FIELD WONOGIRI, INDONESIA
author_sort	Mujiyo
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title_sort	mapping of soil degradation potency in paddy field wonogiri, indonesia
callnumber	S1-972
title_auth	MAPPING OF SOIL DEGRADATION POTENCY IN PADDY FIELD WONOGIRI, INDONESIA
abstract	Sustainability of paddy field becomes the main concern as the media of biomass production, thus it is needed a datum and information about land characteristics to find out its degradation. Mapping of soil degradation potency in paddy field is an identification of initial soil condition to discover the land degradation potency. Mapping was done by overlaying map of soil, slope, rainfall and land use with standard procedures to obtain its value and status of soil degradation potency. Area mapping is an effective land for biomass production (natural forest, mixed farm, savanna, paddy field, shrub and dry field) with approximately 43,291.00 hectares (ha) in Sidoharjo, Girimarto, Jatipurno, Jatisrono, Jatiroto, Tirtomoyo, Nguntoronadi and Ngadirojo District. The result shows that soil degradation potency (SDP) in Districts of Sidoharjo, Girimarto, Jatipurno, Jatisrono, Jatiroto, Tirtomoyo, Nguntoronadi and Ngadirojo are very low, low (DP II) 20,702.47 ha (47.82%), moderate (DP III) 15,823.80 ha (36,55%) and high (DP IV) 6,764.73 ha (15.63%). Paddy field covered 22,036.26 ha or about 50.90% of all area as effective biomass production, its SDP considers as low (DP II) 16,021.04 ha (37.01%) and moderate (DP III) 6,015.22 ha (13,89%). Paddy field has a low SDP because it is commonly lies on flat area and conservation method by the farmer is maintaining the paddy bund and terrace. This study needs an advanced study to identify actual SDP through detail verification in the field, and also support by soil sample analysis in the laboratory.
abstractGer	Sustainability of paddy field becomes the main concern as the media of biomass production, thus it is needed a datum and information about land characteristics to find out its degradation. Mapping of soil degradation potency in paddy field is an identification of initial soil condition to discover the land degradation potency. Mapping was done by overlaying map of soil, slope, rainfall and land use with standard procedures to obtain its value and status of soil degradation potency. Area mapping is an effective land for biomass production (natural forest, mixed farm, savanna, paddy field, shrub and dry field) with approximately 43,291.00 hectares (ha) in Sidoharjo, Girimarto, Jatipurno, Jatisrono, Jatiroto, Tirtomoyo, Nguntoronadi and Ngadirojo District. The result shows that soil degradation potency (SDP) in Districts of Sidoharjo, Girimarto, Jatipurno, Jatisrono, Jatiroto, Tirtomoyo, Nguntoronadi and Ngadirojo are very low, low (DP II) 20,702.47 ha (47.82%), moderate (DP III) 15,823.80 ha (36,55%) and high (DP IV) 6,764.73 ha (15.63%). Paddy field covered 22,036.26 ha or about 50.90% of all area as effective biomass production, its SDP considers as low (DP II) 16,021.04 ha (37.01%) and moderate (DP III) 6,015.22 ha (13,89%). Paddy field has a low SDP because it is commonly lies on flat area and conservation method by the farmer is maintaining the paddy bund and terrace. This study needs an advanced study to identify actual SDP through detail verification in the field, and also support by soil sample analysis in the laboratory.
abstract_unstemmed	Sustainability of paddy field becomes the main concern as the media of biomass production, thus it is needed a datum and information about land characteristics to find out its degradation. Mapping of soil degradation potency in paddy field is an identification of initial soil condition to discover the land degradation potency. Mapping was done by overlaying map of soil, slope, rainfall and land use with standard procedures to obtain its value and status of soil degradation potency. Area mapping is an effective land for biomass production (natural forest, mixed farm, savanna, paddy field, shrub and dry field) with approximately 43,291.00 hectares (ha) in Sidoharjo, Girimarto, Jatipurno, Jatisrono, Jatiroto, Tirtomoyo, Nguntoronadi and Ngadirojo District. The result shows that soil degradation potency (SDP) in Districts of Sidoharjo, Girimarto, Jatipurno, Jatisrono, Jatiroto, Tirtomoyo, Nguntoronadi and Ngadirojo are very low, low (DP II) 20,702.47 ha (47.82%), moderate (DP III) 15,823.80 ha (36,55%) and high (DP IV) 6,764.73 ha (15.63%). Paddy field covered 22,036.26 ha or about 50.90% of all area as effective biomass production, its SDP considers as low (DP II) 16,021.04 ha (37.01%) and moderate (DP III) 6,015.22 ha (13,89%). Paddy field has a low SDP because it is commonly lies on flat area and conservation method by the farmer is maintaining the paddy bund and terrace. This study needs an advanced study to identify actual SDP through detail verification in the field, and also support by soil sample analysis in the laboratory.
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title_short	MAPPING OF SOIL DEGRADATION POTENCY IN PADDY FIELD WONOGIRI, INDONESIA
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