Cotton yield and nitrogen requirement is modified by crop rotation and tillage method
References (40)
- et al.
Winter legume and tillage effects on cotton growth and soil ecology
Soil Tillage Res.
(1988) - et al.
An Introduction to Genstat
- et al.
Gaseous nitrogen losses from conventional and chemical summer fallow
Can. J. Soil Sci.
(1985) - et al.
Cotton responses to nitrogen: effect of land pre-treatments and fertilizer applications
Cotton Grow. Rev.
(1971) - et al.
Conservation tillage systems for cotton production
Soil Sci. Soc. Am., J.
(1985) - et al.
Comparison of models for describing corn yield response to nitrogen fertilizer
Agron. J.
(1990) - et al.
Moisture regimes of a cracking clay soil under furrow irrigated cotton
Aust. J. Exp. Agric. Anim. Husb.
(1981) - et al.
Irrigation for crops in a sub-humid environment. 6. Effects of irrigation and nitrogen fertilizer on growth, yield and quality of cotton
Irrig. Sci.
(1981) - et al.
Nitrogen application to cotton on clay soil: timing and soil testing
Agron. J.
(1988) - et al.
A comparison of drip and furrow irrigated cotton on a cracking clay soil. 1. Growth and nitrogen uptake
Irrig. Sci.
(1990)
Prediction of nitrogen fertilizer requirement in cotton using petiole and sap nitrate
Commun. Soil Sci. Plant Anal.
Degradation and restoration of soil structure in a cracking clay used for cotton production
Aust. J. Soil Res.
Cotton response to late sidedress nitrogen applications
Overwintering populations of Heliothis in the Namoi Valley and the importance of cultivation of cotton stubble
Aust. Cotton Grow.
Effects of controlled-traffic on soil physical properties and crop rooting
Agron. J.
Long-term tillage and rotation effects on corn growth and yield on high and low organic matter, poorly drained soils
Agron. J.
A conservation tillage system for profitable cotton production in the Central Texas high plains
Agron. J.
An economic assessment of the response of cotton to nitrogen and water in Ord Valley, North Western Australia
Cotton Grow. Rev.
Effect of preceding crop on the nitrogen requirements of irrigated cotton (Gossypium hirsutum L.) on a vertisol
Field Crops Res.
Automatic methods for determining nitrate and nitrite in water and soil extracts
Analyst
Cited by (71)
Irrigation induced surface carbon flow in a Vertisol under furrow irrigated cotton cropping systems
2018, Soil and Tillage ResearchPotential of increased temporal crop diversity to improve resource use efficiencies: Exploiting water and nitrogen linkages
2018, Agroecosystem Diversity: Reconciling Contemporary Agriculture and Environmental QualitySoil structure in permanent beds under irrigated cotton-based cropping systems in a Vertisol
2017, Soil and Tillage ResearchCitation Excerpt :Bed disturbance is also necessary to destroy heliothis (Helicoverpa spp.) pupae, a major insect pest of cotton (Hulugalle et al., 2011). Research over the past four decades has indicated that permanent beds can result in significant improvements to both surface and subsoil structure in Vertisols (McKenzie et al., 1990; Constable et al., 1992; McHugh et al., 2009; Antille et al., 2016). The objective of this study, therefore, was to quantify soil structure within beds in an irrigated Vertisol with a dispersive and sodic sub-soil by assessing the changes in shrinkage curve indices caused by (a) imposing permanent bed systems in a site that had been under intensive tillage, and (b) eliminating or shortening fallow periods in cotton-based crop rotations by sowing vetch.
The role of soil properties and it's interaction towards quality plant fiber: A review
2015, Renewable and Sustainable Energy ReviewsCitation Excerpt :Management practices that delays crop maturity lead to reduced micronaire due to exposure of a crop to unfavorable conditions. Some example are early stress with subsequent recovery, or higher N fertility and different tillage or rotation systems [79,89], planting date [103], green manure crops [104], irrigation [8] and insect damage causing compensation and later fruit production [105]. Blaise [106] observed better fiber length and strength in the organic cultivation system (OCS) plots compared with the modern method cultivation (MMC).
Modelling soil organic carbon storage with RothC in irrigated Vertisols under cotton cropping systems in the sub-tropics
2014, Soil and Tillage Research