Effects of wheat straw incorporation in cotton-wheat double cropping system on nutrient status and growth in cotton

Abstract

Soil potassium deficiency causes cotton (Gossypium hirsutum L.) yield decline, which China addresses through the importation of costly inorganic potassium. While applying inorganic potassium fertilizer in long-term would cause environmental issues. The feasibility of wheat straw incorporation replacing inorganic potassium for soil available potassium concentration in cotton-wheat double cropping system has been confirmed in the previous study. However, little is known about the dynamics of the nutrient concentrations and growth in cotton grown under wheat straw incorporation and inorganic potassium application. Based on the production reality in cotton-wheat double cropping system, total and half wheat straw incorporation (9000 and 4500kgha−1), high- and super-high-yielding management requiring inorganic potassium application (150 and 300kgK2Oha−1), and control (without wheat straw or inorganic potassium) conditions were set. The 3-year in-situ field experiments were conducted in Nanjing and Dafeng, China, on clay- and sandy-loam soil with initial (2011) available potassium of 155 and 316mgkg−1, respectively. The results indicated that nitrogen and phosphorus concentrations in cotton were little affected. Potassium concentrations in cotton under wheat straw incorporation of 9000kgha−1 in Nanjing and 4500 and 9000kgha−1 in Dafeng were consistent with those under inorganic potassium applications. Cotton biomass increments under inorganic potassium applications were greater than wheat straw incorporations at the late growth period. In Nanjing in 2013, seedcotton yield under wheat straw incorporation of 9000kgha−1 was similar to that of 150kgK2Oha−1, but was markedly lower than that of 300kgK2Oha−1. Wheat straw incorporation enhanced green leaf area duration (LAD) at the late period of cotton growth, while LAD remained longer under inorganic potassium. Relative growth rate (RGR) and net assimilation rate (NAR) of cotton under wheat straw incorporation were lower than those under inorganic potassium application. Greater cotton biomass increment at the late growth period under inorganic potassium applications were probably more because LAD remained longer, rather than RGR and NAR greater. These results showed that the short-term (3 years) strategy of incorporating 9000kgha−1 wheat straw to replace inorganic potassium (150kgK2Oha−1) was effective for high-yielding cotton production.