Rice and wheat yield and soil potassium changes in response to potassium management in two soil types

• Published in: Nutrient cycling in agroecosystems Vol. 117; no. 1; pp. 121 - 130
• Main Authors: Li, Changzhou, Zhao, Xinlin, Liu, Xiaowei, Lu, Dianjun, Chen, Xiaoqin, Wang, Huoyan, Zhou, Jianmin
• Format: Journal Article
• Language: English
• Published: Dordrecht Springer Netherlands 01.05.2020; Springer Nature B.V
• Subjects: Agricultural production; Agriculture; Biomedical and Life Sciences; Cereal crops; Crop yield; Cropping systems; exchangeable potassium; field experimentation; Grain; grain yield; Life Sciences; monitoring; Original Article; Potassium; Rice; sodium; Soil fertility; Soil types; Soils; Straw; Wheat; Soil K fertility; Exchangeable K; Potassium; Rice–wheat cropping system; Non-exchangeable K
• ISSN: 1385-1314; 1573-0867
• DOI: 10.1007/s10705-020-10056-y

The soil non-exchangeable potassium (K) pool contributes significantly to meeting crop K requirements. The objective of this study was to determine wheat and rice grain yield responses to different concentrations of sodium tetraphenylboron (NaTPB) extractable non-exchangeable K in soils. A field experiment was conducted over a period of 4 years using three K application strategies in soils with high (JY) and low (GD) levels of non-exchangeable K. In both soils, rice yield was unaffected by K application during the 4-year study period. However, in GD soil, wheat was unable to produce grains without K additions (0 K) during the fourth wheat season. In JY soil, wheat grain yield decreased only in the 0 K (by 11%) compared with the recommended K application during the fourth wheat season. Different responses in wheat between the two soils indicated that NaTPB-non-exchangeable K better represented the soil K supplying capacity than it did exchangeable K. Lower amounts of non-exchangeable K extracted by NaTPB in GD soil were mainly due to lower amounts extracted during the 0–5 s and 5–10 min time periods. Straw retention alone resulted in negative K balances, with 100 kg K ha −1  yr −1 in JY soil and 95 kg ha −1  yr −1  in GD soil. In conclusion, recommended K application combined with NaTPB-K monitoring would be useful for sustaining crop yield and soil K fertility among different soils in rice–wheat cropping systems.