Effect of potato hilling on soil temperature, soil moisture distribution and sediment yield on a sloping terrain
Soil erosion rates are exacerbated in sloping arable lands of Central Kenya due mainly to the high soil disturbance caused by potato hilling. A field study was conducted in runoff plots to quantify the effect of potato hilling on soil loss, soil moisture distribution and soil temperature. Three hill...
| Main Authors: | , , , , |
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| Format: | Journal Article |
| Language: | Inglés |
| Published: |
Elsevier
2018
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| Subjects: | |
| Online Access: | https://hdl.handle.net/10568/96922 |
| _version_ | 1855530346929455104 |
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| author | Nyawade, S. Karanja, N. Gachene, C.K.K. Schulte-Geldermann, Elmar Parker, M. |
| author_browse | Gachene, C.K.K. Karanja, N. Nyawade, S. Parker, M. Schulte-Geldermann, Elmar |
| author_facet | Nyawade, S. Karanja, N. Gachene, C.K.K. Schulte-Geldermann, Elmar Parker, M. |
| author_sort | Nyawade, S. |
| collection | Repository of Agricultural Research Outputs (CGSpace) |
| description | Soil erosion rates are exacerbated in sloping arable lands of Central Kenya due mainly to the high soil disturbance caused by potato hilling. A field study was conducted in runoff plots to quantify the effect of potato hilling on soil loss, soil moisture distribution and soil temperature. Three hilling practices; hilling performed at before crop emergence (pre-hilling), one-pass hilling (at 15 days after potato emergence), the conventional two-pass hilling (at 15 and 30 days after potato emergence), and the control (non-hilling) constituted the treatments. Root length density, vegetal cover, soil surface roughness and soil water infiltration capacity were quantified at different stages of potato growth and related with the sediment yield. Soil temperature and soil moisture contents were monitored using Onset HOBO sensor probes throughout the potato growth cycle. Compared to the conventional two-pass hilling, pre-hilling increased the soil moisture content by 6% and lowered the soil temperature by up to 3.4 °C at crop emergence, thus optimized tuber germination and growth. This ensured earlier canopy closure and reduced the cumulative sediment yield by 12 t/ha. The increased surface roughness resulting from pre-hilled ridges puddled the surface water and increased the soil water infiltration rate by 7 to 9 mm/hr compared to the non-hilled plots. Planting potatoes in pre-hilled plots has a potential to optimize the soil temperature and soil moisture conditions and can reduce the high soil erosion rates in sloping arable lands. |
| format | Journal Article |
| id | CGSpace96922 |
| institution | CGIAR Consortium |
| language | Inglés |
| publishDate | 2018 |
| publishDateRange | 2018 |
| publishDateSort | 2018 |
| publisher | Elsevier |
| publisherStr | Elsevier |
| record_format | dspace |
| spelling | CGSpace969222025-11-29T05:22:18Z Effect of potato hilling on soil temperature, soil moisture distribution and sediment yield on a sloping terrain Nyawade, S. Karanja, N. Gachene, C.K.K. Schulte-Geldermann, Elmar Parker, M. potatoes hilling soil temperature sediment Soil erosion rates are exacerbated in sloping arable lands of Central Kenya due mainly to the high soil disturbance caused by potato hilling. A field study was conducted in runoff plots to quantify the effect of potato hilling on soil loss, soil moisture distribution and soil temperature. Three hilling practices; hilling performed at before crop emergence (pre-hilling), one-pass hilling (at 15 days after potato emergence), the conventional two-pass hilling (at 15 and 30 days after potato emergence), and the control (non-hilling) constituted the treatments. Root length density, vegetal cover, soil surface roughness and soil water infiltration capacity were quantified at different stages of potato growth and related with the sediment yield. Soil temperature and soil moisture contents were monitored using Onset HOBO sensor probes throughout the potato growth cycle. Compared to the conventional two-pass hilling, pre-hilling increased the soil moisture content by 6% and lowered the soil temperature by up to 3.4 °C at crop emergence, thus optimized tuber germination and growth. This ensured earlier canopy closure and reduced the cumulative sediment yield by 12 t/ha. The increased surface roughness resulting from pre-hilled ridges puddled the surface water and increased the soil water infiltration rate by 7 to 9 mm/hr compared to the non-hilled plots. Planting potatoes in pre-hilled plots has a potential to optimize the soil temperature and soil moisture conditions and can reduce the high soil erosion rates in sloping arable lands. 2018-12 2018-08-27T02:34:18Z 2018-08-27T02:34:18Z Journal Article https://hdl.handle.net/10568/96922 en Limited Access Elsevier Nyawade, S.; Karanja, N.; Gachene, C.K.K.; Schulte-Geldermann, E.; Parker, M. 2018. Effect of potato hilling on soil temperature, soil moisture distribution and sediment yield on a sloping terrain. Soil and Tillage Research. ISSN 0167-1987. 184. p. 24-36 |
| spellingShingle | potatoes hilling soil temperature sediment Nyawade, S. Karanja, N. Gachene, C.K.K. Schulte-Geldermann, Elmar Parker, M. Effect of potato hilling on soil temperature, soil moisture distribution and sediment yield on a sloping terrain |
| title | Effect of potato hilling on soil temperature, soil moisture distribution and sediment yield on a sloping terrain |
| title_full | Effect of potato hilling on soil temperature, soil moisture distribution and sediment yield on a sloping terrain |
| title_fullStr | Effect of potato hilling on soil temperature, soil moisture distribution and sediment yield on a sloping terrain |
| title_full_unstemmed | Effect of potato hilling on soil temperature, soil moisture distribution and sediment yield on a sloping terrain |
| title_short | Effect of potato hilling on soil temperature, soil moisture distribution and sediment yield on a sloping terrain |
| title_sort | effect of potato hilling on soil temperature soil moisture distribution and sediment yield on a sloping terrain |
| topic | potatoes hilling soil temperature sediment |
| url | https://hdl.handle.net/10568/96922 |
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