The soil degradation caused by conventional tillage in rain-fed areas of northwest China is known to reduce the water–use efficiency and crop yield because of reduced soil porosity and the decreased availability of soil water and nutrients. Thus, we investigated the effects of straw incorporation on soil aggregates with different straw incorporation rates in semiarid areas of southern Ningxia for a three-year period (2008–2010). Four treatments were tested: (i) no straw incorporation (CK); (ii) incorporation of maize straw at a low rate of 4 500 kg ha21 (L); (iii) incorporation of maize straw at a medium rate of 9000 kg ha21 (M); (iv) incorporation of maize straw at a high rate of 13 500 kg ha21 (H). The results in the final year of treatme...
Organic amendments may increase crop yields by improving soil nutrient availability and soil structu...
The combination of chemical fertilizer and biochar is regarded as a useful soil supplement for impro...
Application of maize straw and biochar can potentially improve soil fertility and sequester carbon (...
The soil degradation caused by conventional tillage in rain-fed areas of northwest China is known to...
To determine the effects of straw incorporation on soil nutrients, enzyme activity, and aggregates i...
Soil water is a major limitation to high crop production on the Loess Plateau of China. Straw incorp...
The clay soil of Bangladesh is typically low in soil organic carbon (SOC) and generally has poor soi...
Loss of soil organic carbon (SOC) from agricultural soils is a key indicator of soil degradation ass...
In agroecosystems, effective straw return modes are one of the key practices for increasing soil fer...
Soil infertility is the main barrier to dryland agricultural production in China. To provide a basis...
Straw amendment (SA) can be used to increase soil organic matter and decrease dioxide carbon emissio...
Soil from the Loess Plateau of China is typically low in organic carbon and generally has poor aggre...
Soil management practices are used to enhance soil organic carbon, fertility, and crop productivity ...
Crop straws usually have high lignin and cellulose contents and decompose slowly when returned to th...
This study aimed to determine the effect of straw return depth on soil physicochemical properties, e...
Organic amendments may increase crop yields by improving soil nutrient availability and soil structu...
The combination of chemical fertilizer and biochar is regarded as a useful soil supplement for impro...
Application of maize straw and biochar can potentially improve soil fertility and sequester carbon (...
The soil degradation caused by conventional tillage in rain-fed areas of northwest China is known to...
To determine the effects of straw incorporation on soil nutrients, enzyme activity, and aggregates i...
Soil water is a major limitation to high crop production on the Loess Plateau of China. Straw incorp...
The clay soil of Bangladesh is typically low in soil organic carbon (SOC) and generally has poor soi...
Loss of soil organic carbon (SOC) from agricultural soils is a key indicator of soil degradation ass...
In agroecosystems, effective straw return modes are one of the key practices for increasing soil fer...
Soil infertility is the main barrier to dryland agricultural production in China. To provide a basis...
Straw amendment (SA) can be used to increase soil organic matter and decrease dioxide carbon emissio...
Soil from the Loess Plateau of China is typically low in organic carbon and generally has poor aggre...
Soil management practices are used to enhance soil organic carbon, fertility, and crop productivity ...
Crop straws usually have high lignin and cellulose contents and decompose slowly when returned to th...
This study aimed to determine the effect of straw return depth on soil physicochemical properties, e...
Organic amendments may increase crop yields by improving soil nutrient availability and soil structu...
The combination of chemical fertilizer and biochar is regarded as a useful soil supplement for impro...
Application of maize straw and biochar can potentially improve soil fertility and sequester carbon (...