K. S. Dadhwal scite author profile

Vegetation strips (VS) along with conservation tillage, application of organic amendments and weed mulching improve crop yields by reducing run‐off and topsoil erosion. To investigate these issues, an experiment was conducted under rainfed conditions using grass VS for four and a half years (June 2007 to October 2011) at Dehradun, Uttarakhand, in the Indian Himalayan region. VS were incorporated in the experimental plots (Entisols) in a randomized complete block design in permanent 100 × 20 m (2000 m2) plots with a 2% slope to evaluate the effects of vegetation strips on run‐off, soil loss and crop yield. Three treatments were evaluated: (i) without VS with recommended NPK under conventional tillage, (ii) panicum as VS with recommended NPK under conventional tillage and (iii) palmarosa+ that consists of palmarosa as VS along with organic amendments (farmyard manure, vermicompost and poultry manure) and weed mulch under minimum tillage. The results show that soil loss and run‐off were significantly lower (P < 0.05) in plots under palmarosa+ than without VS treatment. Mean soil loss of 3.4, 5.2 and 7.1 t/ha was recorded from palmarosa+, panicum and without VS treated plots, respectively. Mean run‐off was 234, 356 and 428 mm from plots under palmarosa+, panicum and without VS, respectively. Maize yield was lower on the plots under palmarosa+ compared with panicum, but significantly higher (P < 0.05) than without a strip. The succeeding rainfed wheat yield was significantly greater in plots under palmarosa+ than in the initial years. The wheat yield equivalent was significantly higher in plots under palmarosa+ followed by panicum and without VS. Thus, vegetation strips are recommended for wider adoption to reduce run‐off and soil loss and to increase crop yield. The long‐term goal is to achieve a palmarosa+ system (palmarosa as a vegetation strip along with organic amendments, farmyard manure, vermicompost and poultry manure) and weed mulch under minimum tillage.

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Energy budgeting and emergy synthesis of rainfed maize–wheat rotation system with different soil amendment applications

Singh

Ghosh

Sharma

et al. 2016

Ecological Indicators

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Effect of seven years of nutrient supplementation through organic and inorganic sources on productivity, soil and water conservation, and soil fertility changes of maize-wheat rotation in north-western Indian Himalayas

Singh

Ghosh

Sharma

et al. 2017

Agriculture, Ecosystems & Environment

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Effect of perennial mulches on moisture conservation and soil-building properties through agroforestry

1992

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The effect of perennial mulches on moisture status, soil characteristics and on crop yields (maize-wheat rotation) was evaluated from 1986 through 1989 in a silty loam acidic soil (pH 5.6, PWP 11.4 & FC 25.6%) at the Research Farm of the Central Soil & Water Conservation Research & Training Institute, Dahra Dun. Mulch materials, comprised of leaves of Leucaena leucocephala, Eucalyptus hybrid, Shorea robusta, Broussonatia paprifera or Pueraria hirsuta (chopped) @ 4 t/ha were applied just after sowing of wheat and the residual effect of applied mulch was seen in kharif maize each year.The distribution of profile moisture revealed that at the time of sowing of wheat the soil water content did not differ with depth (0--90 cm). With the advancement of time, the magnitude of moisture distribution changed. At various crop growth stages the highest amount of water was found in the plots mulched with S. robusta followed by E. hybrid. All the mulch materials, except B. paprifera, lowered the soil pH, the maximum effect was noted with E. hybrid (pH reduced from 5.6 to 5.0). After three years, N and K content of soil were found to be greatest with the application of L. leucocephala whereas the highest P content was observed in B. paprifera mulched plots.The highest wheat grain yield (2.46 t/ha) was recorded with L. leucocephala and minimum under control (2.11 t/ha) which represents a gain of 11.7 per cent. Maximum maize grain yield (0.73 t/ha) was found in S. robusta mulched plots followed by L. leucocephala (0.63 t/ha) and the minimum in the control (0.51 t/ha).

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K. S. Dadhwal

Effects of fertilization on soil aggregation, carbon distribution and carbon management index of maize-wheat rotation in the north-western Indian Himalayas

Effects of grass vegetation strips on soil conservation and crop yield under rainfed conditions in theIndian sub‐Himalayas

Energy budgeting and emergy synthesis of rainfed maize–wheat rotation system with different soil amendment applications

Effect of seven years of nutrient supplementation through organic and inorganic sources on productivity, soil and water conservation, and soil fertility changes of maize-wheat rotation in north-western Indian Himalayas

Effect of perennial mulches on moisture conservation and soil-building properties through agroforestry

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