西北农业学报2026,Vol.35Issue(2):241-251,11.DOI:10.7606/j.issn.1004-1389.2026.02.005
水氮调控对陇中半干旱地区马铃薯产量及土壤环境的影响
Effects of Water and Nitrogen Management on Potato Yield and Soil Environment in Semi-Arid Region of Central Gansu
摘要
Abstract
To enhance potato yield andand improve soil conditions,a field experiment was conducted in Gaolan county from April to September 2023 in the semi-arid region of central Gansu.A two-factor experimental design was employed with three irrigation levels—W1(2 437.3 m3·hm-2),W2(1 824.2 m3·hm-2),and W3(1 297.7 m3·hm-2)—and three nitrogen application rates:N1(240 kg·hm-2),N2(180 kg·hm-2),and N3(120 kg·hm-2).A control(CK)treatment with high irri-gation(W1)and no fertilization was included,resulting in 10 total treatments.The results indicated:(1)water-nitrogen regulation significantly altered the distribution of available potassium and phos-phorus across soil layers and markedly increased nitrate and ammonium nitrogen content in the 10-20 cm layer.Under identical irrigation,N1 treatment yielded the highest soil nutrient content;(2)except for catalase,sucrase,urease,and alkaline phosphatase activities decreased with soil depth.Enzyme ac-tivities in the 0-20 cm layer were more sensitive to water-nitrogen regulation.Alkaline phosphatase activity peaked in the W1N2 treatment(60.66%higher than CK),sucrase and urease activities peaked under W1N1 treatment,while catalase activity reached its maximum in the 20-40 cm soil layer;(3)The W1N2 treatment produced the highest potato yield at 5.38 t·hm-2,representing a 42.17%in-crease over CK and a 149.58%increase over the lowest-yielding W3N3 treatment.Under identical ir-rigation conditions,nitrogen fertilizer productivity decreased with increasing nitrogen application rates.Collectively,the optimal water-nitrogen combination(W1N2)significantly increased yields and improved soil fertility by optimizing soil nutrients and enzyme activities,while reducing nitrogen appli-cation by 25.00%(60 kg·hm-2).These findings provide important technical references for the sus-tainable development of the potato industry in this region.关键词
水氮调控/马铃薯/土壤养分/土壤酶活性/半干旱地区Key words
Water and nitrogen regulation/Potato/Soil nutrients/Soil enzyme activity/Semi-arid region引用本文复制引用
黄辰新,陆军胜,崔循臻,师珍琦,马鹏,张楷楷,白兴成,黄彩霞..水氮调控对陇中半干旱地区马铃薯产量及土壤环境的影响[J].西北农业学报,2026,35(2):241-251,11.基金项目
甘肃省自然科学基金重点项目(24JRRA635) (24JRRA635)
甘肃省高等学校青年博士基金(2024QB-071) (2024QB-071)
甘肃农业大学青年导师扶持基金(GAU-QDFC-2023-13) (GAU-QDFC-2023-13)
甘肃省水利科学试验研究及技术推广项目(25GSLK054). Key Project of Natural Science Foundation of Gansu Province(No.24JRRA635) (25GSLK054)
University Young PhD.Fund for Universities in Gansu Province(No.2024QB-071) (No.2024QB-071)
Young Tutor Support Fund of Gansu Agricultural University(No.GAU-QDFC-2023-13) (No.GAU-QDFC-2023-13)
Gansu Provincial Water Resources Science Experimental Research and Technology Extension Project(No.25GSLK054). (No.25GSLK054)
