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Quantitative effects of potassium application on potato tuber yield, quality, and potassium uptake in China: A meta-analysis

Fan Zhang, Xiukang Wang, Hao He, Haochen Wang, Bolun Zhang, Shiju Liu, Ruixue Chen, Yaru Zhang, Yandong Wang, Hao Ren, Yu Wang, Juan Han

2025Field Crops Research8 citationsDOIOpen Access PDF

Abstract

Context Potato is a potassium (K)-sensitive staple crop with an essential role in ensuring food security in China. However, there have been no previous systematic quantitative analyses of the effects of K application on the potato tuber yield, quality, and K uptake. Objective and methods Thus, we conducted a meta-analysis based on 2165 observations from 192 publications to quantify the effects of K application on the potato tuber yield, quality, and K uptake, and to analyze the key related factors. Results K application could significantly increase the yield (19.2 %), starch content (6.7 %), crude protein content (7.9 %), vitamin C content (9.6 %), and K uptake (40.5 %), and significantly decrease the reducing sugar content (16.1 %) compared with no K application. Climatic conditions with mean annual precipitation > 800 mm and mean annual temperature > 12°C facilitated optimal increases in the tuber yield and K uptake, but were not conducive to increasing quality. KNO 3 application was more effective for improving the yield than K 2 SO 4 and KCl. Furthermore, split application of 150–200 kg ha –1 K 2 SO 4 was beneficial for increasing the tuber quality (starch and vitamin C) and K uptake at a planting density of 6–7 × 10 4 plants ha –1 under mulching conditions, and the effect was most pronounced in soils with soil organic matter > 30 g kg –1 , total nitrogen > 1.5 g kg –1 , exchangeable K < 100 mg kg –1 , and available phosphorus = 10–20 mg kg –1 . Based on the sustainable potassium application program, the optimal K application rates for the northeast, northwest, southwest, north, and southeast regions of China were determined as 76.1 kg ha –1 , 170.3 kg ha –1 , 168.7 kg ha –1 , 225.8 kg ha –1 , and 146.6 kg ha –1 , respectively, which can simultaneously achieve the optimal potato tuber yield, environmental benefits, and quality. Conclusion and implications This study provides an important reference for formulating appropriate K fertilizer management strategies to achieve sustainable potato production in different regions of China.

Topics & Concepts

PotassiumYield (engineering)AgronomyChinaChemistryHorticultureEnvironmental scienceBiologyMaterials scienceGeographyOrganic chemistryArchaeologyMetallurgyPotato Plant ResearchPlant Pathogens and Resistance