Combined application of controlled‐release phosphate and triple superphosphate improved cotton yield and phosphorus supply in saline‐alkali land: A short‐term trial

Author:

Lv Dongqing1,Zheng Wenkui1,Feng Haojie1ORCID,Qiu Tingyao1,Bao Xiuying1,Liu Yanli1,Li Chengliang1ORCID

Affiliation:

1. National Engineering Research Center for Efficient Utilization of Soil and Fertilizer Resources College of Resources and Environment, Shandong Agricultural University Tai'an Shandong 271018 PR China

Abstract

AbstractDegradation of agricultural productivity in sodic and saline soils is attributed to reducing phosphorus (P) supply capacity. The available P supply intensity and crop yields could be enhanced by artificial P fertilizer application. The effects of blending 70% controlled‐release phosphorus (CRP) and 30% triple superphosphate (TSP) on cotton physiological‐biochemical properties in sodic and saline soils were investigated by a pot incubation trial. A pot experiment was used two types of P fertilizers and three P levels (120, 96 and 72 kg P2O5 ha−1). The results showed that the SPAD value and photosynthetic rate of BBF (blending 70% CRP and 30% TSP) treatments were higher than that of TSP treatments. The root length, root surface area, and root volume of the BBF treatments increased by 10.04% and 5.31%, 3.67% and 6.80%, 3.05% and 13.77% compared to TSP treatments, respectively. In comparison with TSP1 (full‐dose of TSP) and TSP2 (to reduce 20% dose of TSP), the average lint yield of BBF1 (full‐dose of BBF) and BBF2 (to reduce 20% dose of BBF) were significantly increased by 8.35%, 7.39%, respectively. The phosphorus use efficiency of BBF2 treatment was increased by 16.59%–22.87% compared with TSP2 treatment, with the largest increase range. Furthermore, soil available P content of BBF treatments increased by 4.65%–76.77% compared with TSP treatments from the blooming to maturity stage. In a word, with P fertilization rate reduced by 20%, the combination of two P fertilizers (BBF2 treatment) can achieve high quality and high yield of cotton in sodic and saline soil.

Funder

National Key Research and Development Program of China

National Natural Science Foundation of China

Publisher

Wiley

Subject

Soil Science,General Environmental Science,Development,Environmental Chemistry

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