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Soil management for Sustained and Higher Productivity in the Adarsha Watershed

OAR@ICRISAT

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Relation http://oar.icrisat.org/11937/
https://link.springer.com/book/10.1007/978-3-030-29918-7
10.1007/978-3-030-29918-7_4
 
Title Soil management for Sustained and Higher Productivity in the Adarsha Watershed
 
Creator Chander, G
Wani, S P
Sudi, R
Pardhasaradhi, G
Pathak, P
 
Subject Soil
Soil Science
Watershed Management
 
Description Kothapally watershed is a typical representative of rain-fed (800 mm rainfall) semi-arid tropics (SAT) with
varying soil depth in the watershed and widespread soil degradation as the major challenge coupled with low
crop yields and family incomes. Before the onset of initiative during 1999, soil health mapping and baseline
surveys showed varying soil depth in fields at different topo-sequence, macro-/micronutrient deficiencies
along with low soil carbon (C) levels and heavy soil loss through erosion that compromised with crop
production in the watershed. Inappropriate fertilizer management decisions leading to negative budget for
primary nutrients in major crops/cropping systems highlighted suboptimal fertilizer use. Unawareness about
micro-/secondary nutrient deficiencies like sulphur (S), boron (B) and zinc (Zn) and lack of addition of such
fertilizers contributed to low crop yields and declining fertilizer and water use efficiency. Farmers
participatory trials highlighted yield loss of 13–39% in crops like sorghum and maize in the absence of
deficient micro-/secondary nutrient fertilizers. Recycling of on-farm wastes through vermicomposting and
biomass generation using N-rich Gliricidia on farm boundaries were promoted for fertilizer savings and crop
yield benefit alongside soil carbon building for developing resilience. The impact of integrated soil health
management practices cumulatively observed over 13 years was demonstrated during 2012 soil health
mapping that showed improved mean level of soil organic C; available nutrients, viz. phosphorus (P), B, Zn
and S; and significantly reduced number of fields with low nutrient/C levels. Along with yield advantage, soil
loss was significantly reduced from 3.48 t ha in untreated area to 1.62 t ha in treated watershed area.
 
Publisher Springer Nature
 
Contributor Wani, S P
Raju, K V
 
Date 2020-01
 
Type Book Section
PeerReviewed
 
Format application/pdf
 
Language en
 
Identifier http://oar.icrisat.org/11937/1/Soil-Management-Proof-Springer-Sept-2019.pdf
Chander, G and Wani, S P and Sudi, R and Pardhasaradhi, G and Pathak, P (2020) Soil management for Sustained and Higher Productivity in the Adarsha Watershed. In: Community and Climate Resilience in the Semi-Arid Tropics (TSI). Springer Nature, Switzerland, pp. 49-63. ISBN 978-3-030-29917-0