![Effect of inorganic fertilizer and farmyard manure on soil physical [An article from: Bioresource Technology]](https://www.ebooknetworking.net/books/B00/0P6/bigB000P6NYTS.jpg)
Effect of inorganic fertilizer and farmyard manure on soil physical [An article from: Bioresource Technology]
Book Details
PublisherElsevier
ISBN / ASINB000P6NYTS
ISBN-13978B000P6NYT6
AvailabilityAvailable for download now
MarketplaceUnited States 🇺🇸
Description
This digital document is a journal article from Bioresource Technology, published by Elsevier in 2006. The article is delivered in HTML format and is available in your Amazon.com Media Library immediately after purchase. You can view it with any web browser.
Description:
A field experiment was conducted on a Vertisol for three consecutive years (1998-2000) to study the effects of combined use of inorganic fertilizer (NPK) and organic manure (farmyard manure) on soil physical properties, water-use efficiency, root growth and yield of soybean [Glycine max (L.) Merr.] in a soybean-mustard cropping system. Application of 10Mg farmyard manure and recommended NPK (NPK+FYM) to soybean for three consecutive years improved the organic carbon content of the surface (0-15cm) soil from an initial value of 4.4gkg^-^1 to 6.2gkg^-^1 and also increased seed yield and water-use efficiency by 103% and 76%, respectively, over the control. The surface (0-15cm) soil of the plots receiving both farmyard manure and recommended NPK had larger mean weight diameter (0.50mm) and a higher percentage of water stable aggregates (55%) than both the inorganically fertilized (NPK) (0.44mm and 49%) and unfertilized control plots (0.41mm and 45.4%). The saturated hydraulic conductivity (13.32x10^-^6ms^-^1) of the NPK+FYM treatment of the 0-7.5cm depth was also significantly greater than that of the NPK (10.53x10^-^6ms^-^1) and control (8.61x10^-^6ms^-^1) treatments. The lowest bulk density (1.18Mgm^-^3) in the 0-7.5cm layer was recorded in NPK+FYM whereas it was highest in the control plots (1.30Mgm^-^3). However, at sub-surface (22.5-30cm) layer, fertilizer and manure application had little effect on bulk density and saturated hydraulic conductivity. Root length density (RLD) up to the 30cm depth was highest in the NPK+FYM plots and it was 31.9% and 70.5% more than NPK and control plots. The RLD showed a significant and negative correlation (r=-0.88^*^*) with the penetration resistance.
Description:
A field experiment was conducted on a Vertisol for three consecutive years (1998-2000) to study the effects of combined use of inorganic fertilizer (NPK) and organic manure (farmyard manure) on soil physical properties, water-use efficiency, root growth and yield of soybean [Glycine max (L.) Merr.] in a soybean-mustard cropping system. Application of 10Mg farmyard manure and recommended NPK (NPK+FYM) to soybean for three consecutive years improved the organic carbon content of the surface (0-15cm) soil from an initial value of 4.4gkg^-^1 to 6.2gkg^-^1 and also increased seed yield and water-use efficiency by 103% and 76%, respectively, over the control. The surface (0-15cm) soil of the plots receiving both farmyard manure and recommended NPK had larger mean weight diameter (0.50mm) and a higher percentage of water stable aggregates (55%) than both the inorganically fertilized (NPK) (0.44mm and 49%) and unfertilized control plots (0.41mm and 45.4%). The saturated hydraulic conductivity (13.32x10^-^6ms^-^1) of the NPK+FYM treatment of the 0-7.5cm depth was also significantly greater than that of the NPK (10.53x10^-^6ms^-^1) and control (8.61x10^-^6ms^-^1) treatments. The lowest bulk density (1.18Mgm^-^3) in the 0-7.5cm layer was recorded in NPK+FYM whereas it was highest in the control plots (1.30Mgm^-^3). However, at sub-surface (22.5-30cm) layer, fertilizer and manure application had little effect on bulk density and saturated hydraulic conductivity. Root length density (RLD) up to the 30cm depth was highest in the NPK+FYM plots and it was 31.9% and 70.5% more than NPK and control plots. The RLD showed a significant and negative correlation (r=-0.88^*^*) with the penetration resistance.
