[1]

Bai X, Tang Y, Li Q, Chen Y, Liu D, et al. 2021. Network pharmacology integrated molecular docking reveals the bioactive components and potential targets of Morinda officinalis–Lycium barbarum coupled-herbs against oligoasthenozoospermia. Scientific Reports 11:2220

doi: 10.1038/s41598-020-80780-6
[2]

Toh DWK, Xia X, Sutanto CN, Low JHM, Poh KK, et al. 2021. Enhancing the cardiovascular protective effects of a healthy dietary pattern with wolfberry (Lycium barbarum): a randomized controlled trial. The American Journal of Clinical Nutrition 114:80−89

doi: 10.1093/ajcn/nqab062
[3]

Zheng C, Wang R, Zhou X, Li C, Dou X. 2022. Photosynthetic and growth characteristics of apple and soybean in an intercropping system under different mulch and irrigation regimes in the Loess Plateau of China. Agricultural Water Management 266:107595

doi: 10.1016/j.agwat.2022.107595
[4]

Hooshmand M, Albaji M, Boroomand nasab S, Alam zadeh Ansari N. 2019. The effect of deficit irrigation on yield and yield components of greenhouse tomato (Solanum lycopersicum) in hydroponic culture in Ahvaz region, Iran. Scientia Horticulturae 254:84−90

doi: 10.1016/j.scienta.2019.04.084
[5]

Ma B, Tian J. 2020. Advance in research on water and fertilizer effect on yield and quality of Lycium barbarum L. Water Saving Irrigation 11(11):6−11

doi: 10.3969/j.issn.1007-4929.2020.11.002
[6]

da Silva JR, Rodrigues WP, Ferreira LS, de Paula Bernado W, Paixão JS, et al. 2018. Deficit irrigation and transparent plastic covers can save water and improve grapevine cultivation in the tropics. Agricultural Water Management 202:66−80

doi: 10.1016/j.agwat.2018.02.013
[7]

Yuan ZQ, Zhang R, Wang BX, Gao BQ, Ayana G, et al. 2019. Film mulch with irrigation and rainfed cultivations improves maize production and water use efficiency in Ethiopia. Annals of Applied Biology 175:215−27

doi: 10.1111/aab.12531
[8]

Peng Y, Fei L, Liu X, Sun G, Hao K, et al. 2023. Coupling of regulated deficit irrigation at maturity stage and moderate fertilization to improve soil quality, mango yield and water-fertilizer use efficiency. Scientia Horticulturae 307:111492

doi: 10.1016/j.scienta.2022.111492
[9]

Zhao S, Gao H, Jia X, Zhou K, Wang H, et al. 2022. MdHB7-like confers drought tolerance and improves water-use efficiency through modulating stomatal density in apple (Malus domestica). Scientia Horticulturae 294:110758

doi: 10.1016/j.scienta.2021.110758
[10]

Du Y, Wang J, Bao Z, Zhang Y, Zhao Y. 2015. Study on water consumption characteristics of Chinese wolfberry under mulch drip irrigation. Journal of China Institute of Water Resources and Hydropower Research 13:166−70

doi: 10.13244/j.cnki.jiwhr.2015.03.002
[11]

Zhao Y, Yin J, Cheng L, Wu J. 2018. Influence of irrigation quota on growth index and yield of Lycium under different planting modes. Water Saving Irrigation 6:35−40

doi: 10.3969/j.issn.1007-4929.2018.06.009
[12]

Sun H, Wang D, Zhao M. 2020. Drip irrigation experiment under plastic mulching of Lycium barbarum. Forest Science and Technology 12:75−76

[13]

Zhang T, Dong Q, Zhan X, He J, Feng H. 2019. Moving salts in an impermeable saline-sodic soil with drip irrigation to permit wolfberry production. Agricultural Water Management 213:636−45

doi: 10.1016/j.agwat.2018.11.011
[14]

Zhou Y, Gao X, Wang J, Robinson BH, Zhao X. 2021. Water-use patterns of Chinese wolfberry (Lycium barbarum L.) on the Tibetan Plateau. Agricultural Water Management 255:107010

doi: 10.1016/j.agwat.2021.107010
[15]

Qin G. 1982. Chinese wolfberry research. China: Ningxia People's Publishing House

[16]

Wu L, Zhang G. 2017. Effects of NPK fertilization on fruit quality of Lycium barbarum L. under different soil fertility. Gansu Forestry 6:43−44

[17]

Zhang M, Dong B, Qiao Y, Shi C, Hong Y, et al. 2018. Yield and water use responses of winter wheat to irrigation and nitrogen application in the North China Plain. Journal of Integrative Agriculture 17:1194−206

doi: 10.1016/S2095-3119(17)61883-5
[18]

de França AA, von Tucher S, Schmidhalter U. 2021. Effects of combined application of acidified biogas slurry and chemical fertilizer on crop production and N soil fertility. European Journal of Agronomy 123:126224

doi: 10.1016/j.eja.2020.126224
[19]

Liu H, Wang G, Li X, Jiang S. 2019. Effect of combined application of bio-organic fertilizer and chemical fertilizer on growth and fertilizer utilization rate of forage corn. Journal of Shanxi Agricultural Sciences 47:1564−68

doi: 10.3969/j.issn.1002-2481.2019.09.18
[20]

Sun Y, Zhang Y, Wang Y. 2019. Effects of chemical fertilizers replaced by organic manure on soil fertility, tea yield and quality in machine-picked tea garden. Chinese Agricultural Science Bulletin 35:43−49

[21]

Liu PZ, Wang YH, Wang LX, Li MY, Liu H, et al. 2024. Current situation and future outlook of production, processing and marketing in the celery industry. Technology in Horticulture 4:e13

doi: 10.48130/tihort-0024-0010
[22]

Lalk GT, Bi G, Stafne ET, Li T. 2023. Fertilizer type and irrigation frequency affect plant growth, yield, and gas exchange of containerized strawberry cultivars. Technology in Horticulture 3:3

doi: 10.48130/TIH-2023-0003
[23]

Fasina AS, Shittu OS, Ogunleye KS, Ilori AOA, Babalola TS. 2021. Effect of drip irrigation frequency, N-fertilization, and mulching on yield, nitrogen, and water use efficiencies of cucumber (Cucumis sativus L.) in Ikole-Ekiti, Nigeria. Asian Journal of Agriculture and Rural Development 11:184−91

doi: 10.18488/journal.ajard.2021.112.184.191
[24]

Liu H, Gao Y, Sun J, Wu X, Jha SK, et al. 2017. Responses of yield, water use efficiency and quality of short-season cotton to irrigation management: interactive effects of irrigation methods and deficit irrigation. Irrigation Science 35:125−39

doi: 10.1007/s00271-016-0526-4
[25]

Badr MA, Abou-Hussein SD, El-Tohamy W. 2016. Tomato yield, nitrogen uptake and water use efficiency as affected by planting geometry and level of nitrogen in an arid region. Agricultural Water Management 169:90−97

doi: 10.1016/j.agwat.2016.02.012
[26]

Zhou H, Zhang F, Wu L, Fam J, Xiang Y. 2015. Effect of water-fertilizer coupling on yield, quality and utilization of water and fertilizer in young apple trees. Transactions of the Chinese Society for Agricultural Machinery 46:173−83

doi: 10.6041/j.issn.1000-1298.2015.12.024
[27]

Trujillo Marín EE, Wang C, Singha A, Bloem E, Zandi P, et al. 2022. Reduced nitrogen proportion during the vegetative growth stage improved fruit yield and nitrogen uptake of cherry tomato plants under sufficient soil water regime. Acta Agriculturae Scandinavica, Section B — Soil & Plant Science 72:700−08

doi: 10.1080/09064710.2022.2060855
[28]

Liu D, Li R. 2016. Study on coupling effect of water and fertilizer on Lycium chincnse Mill. under drip fertigation in Chaidamu Balong Area. Journal of Anhui Agricultural Sciences 44:117−18,199

doi: 10.13989/j.cnki.0517-6611.2016.32.040
[29]

Abhiram G, McCurdy M, Davies CE, Grafton M, Jeyakumar P, et al. 2023. An innovative lysimeter system for controlled climate studies. Biosystems Engineering 228:105−19

doi: 10.1016/j.biosystemseng.2023.03.005
[30]

Allen RG, Pereira LS, Raes D, Smith M. 1998. Crop evapotranspiration - guidelines for computing crop water requirements - FAO irrigation and drainage paper 56. M-56, Food and Agriculture Organization of the United Nations, Rome, Italy.

[31]

Ierna A, Pandino G, Lombardo S, Mauromicale G. 2011. Tuber yield, water and fertilizer productivity in early potato as affected by a combination of irrigation and fertilization. Agricultural Water Management 101:35−41

doi: 10.1016/j.agwat.2011.08.024
[32]

Zhang D. 2017. Annual production value of wolfberry hits 13 billion yuan in NW China. (Accessed on 1 Aug. 2024). www.xinhuanet.com/english/2017-07/19/c_136456445.htm.

[33]

Wang X, Sun Z, El-Sway SM, Wang F. 2018. Effect of ridges and furrows plant of wolfberry on alkalized solonchak. Ekoloji 27:975−83

[34]

Yin Z, Lei J, Gui L, Zhang X. 2018. Impact of drip irrigationamount on growth, yield and quality of different varieties of wolfberry. Journal of Irrigation and Drainage 37:28−34

doi: 10.13522/j.cnki.ggps.2017.0515
[35]

Zhang F, Gao Y, Jiao W, Hu W. 2017. Effects of water and fertilizer supply on growth, water and nutrient use efficiencies of potato in sandy soil of Yulin area. Transactions from the Chinese Society of Agricultural Engineering 48:270−78

doi: 10.6041/j.issn.1000-1298.2017.03.034
[36]

Deng Z, Yin J, Wu J, Zhang H. 2021. Comprehensive evaluation of water and fertilizer application forLycium barbarum L. based on AHP and entropy weight method. Journal of Drainage and Irrigation Machinery Engineering 39:712−19

doi: 10.3969/j.issn.1674-8530.20.0319
[37]

Liu Y, Yin J, Geng H, Wu J. 2019. Effects of water and fertilizer coupling on growth characteristics and photosynthesis of Lycium barbarum. Water Saving Irrigation 3:34−37,42

doi: 10.3969/j.issn.1007-4929.2019.03.008
[38]

Sarıdaş MA, Kapur B, Çeliktopuz E, Şahiner Y, Kargı SP. 2021. Land productivity, irrigation water use efficiency and fruit quality under various plastic mulch colors and irrigation regimes of strawberry in the eastern Mediterranean region of Turkey. Agricultural Water Management 245:106568

doi: 10.1016/j.agwat.2020.106568
[39]

Abhiram G, Grafton M, Jeyakumar P, Bishop P, Davies CE, et al. 2022. The nitrogen dynamics of newly developed lignite-based controlled-release fertilisers in the soil-plant cycle. Plants 11:3288

doi: 10.3390/plants11233288
[40]

Zhu L, He J, Tian Y, Li X, Li Y, et al. 2022. Intercropping Wolfberry with Gramineae plants improves productivity and soil quality. Scientia Horticulturae 292:110632

doi: 10.1016/j.scienta.2021.110632
[41]

Dai Z, Fei L, Huang D, Zeng J, Chen L, et al. 2019. Coupling effects of irrigation and nitrogen levels on yield, water and nitrogen use efficiency of surge-root irrigated jujube in a semiarid region. Agricultural Water Management 213:146−54

doi: 10.1016/j.agwat.2018.09.035
[42]

Li Y, Chen X, Li F, Zhang X. 2018. Effect of formula fertilization on yield and quality of Lycium barbarum based on fertigation. Nothern Horticulture 22:161−68

[43]

Tang J, Xiao D, Wang J, Fang Q, Zhang J, et al. 2021. Optimizing water and nitrogen managements for potato production in the agro-pastoral ecotone in North China. Agricultural Water Management 253:106945

doi: 10.1016/j.agwat.2021.106945
[44]

Aziz O, Hussain S, Rizwan M, Riaz M, Bashir S, et al. 2018. Increasing water productivity, nitrogen economy, and grain yield of rice by water saving irrigation and fertilizer-N management. Environmental Science and Pollution Research 25:16601−15

doi: 10.1007/s11356-018-1855-z
[45]

Yang K, Wang F, Shock CC, Kang S, Huo Z, et al. 2017. Potato performance as influenced by the proportion of wetted soil volume and nitrogen under drip irrigation with plastic mulch. Agricultural Water Management 179:260−70

doi: 10.1016/j.agwat.2016.04.014
[46]

Zhang Y, Wei Y, Zheng G, Wang X, Liu G, et al. 2018. Effects of Different Fertilization Amounts on Growth, Yield and Appearance Quality of Lycium barbarum in Southern Xinjiang. Xinjiang Agricultural Sciences 55:2203−11

[47]

Eissa MA, Rekaby SA, Hegab SA, Ragheb HM. 2018. Optimum rate of nitrogen fertilization for drip-irrigated wheat under semi-arid conditions. Journal of Plant Nutrition 41:1414−24

doi: 10.1080/01904167.2018.1454956
[48]

Li X, Xie X, Zhang J, Wang J, Xie Y. 2016. Effect of water and nitrogen fertilizer coupling on water use efficiency of Chuzhou Chrysanthemum morifolium. Journal of Chinese Medicinal Materials 39:245−49

doi: 10.13863/j.issn1001-4454.2016.02.003
[49]

Wei Z, Du T, Li X, Fang L, Liu F. 2018. Interactive effects of CO2 concentration elevation and nitrogen fertilization on water and nitrogen use efficiency of tomato grown under reduced irrigation regimes. Agricultural Water Management 202:174−82

doi: 10.1016/j.agwat.2018.02.027
[50]

Wu D, Xu X, Chen Y, Shao H, Sokolowski E, et al. 2019. Effect of different drip fertigation methods on maize yield, nutrient and water productivity in two-soils in Northeast China. Agricultural Water Management 213:200−11

doi: 10.1016/j.agwat.2018.10.018
[51]

Yao H, Zhang Y, Yi X, Hu Y, Luo H, et al. 2015. Plant density alters nitrogen partitioning among photosynthetic components, leaf photosynthetic capacity and photosynthetic nitrogen use efficiency in field-grown cotton. Field Crops Research 184:39−49

doi: 10.1016/j.fcr.2015.09.005
[52]

Okebalama CB, Safo EY, Yeboah E, Abaidoo RC, Logah V. 2019. Vegetative and reproductive performance of maize to nitrogen and phosphorus fertilizers in Plinthic Acrisol and Gleyic Plinthic Acrisol. Journal of Plant Nutrition 42:559−79

doi: 10.1080/01904167.2019.1567775
[53]

Moradi A, Roshan NM, Amiri E, Ashouri M, Rezaei M. 2021. Effects of interval irrigation and nitrogen fertilizer at different stages of growth on yield and yield components of rice. Romanian Agricultural Research 38:281−89

doi: 10.59665/rar3830
[54]

Geng Y, Bashir MA, Zhao Y, Luo J, Liu X, et al. 2022. Long-term fertilizer reduction in greenhouse tomato-cucumber rotation system to assess N utilization, leaching, and cost efficiency. Sustainability 14:4647

doi: 10.3390/su14084647
[55]

Wu C, Zhu K, Bo X, Wang W. 2016. Effects of different fertilization dosages of N, P and K on the yield, economic benefit and quality of greenhouse tomato. Journal of Anhui Agricultural Sciences 44:156−58

doi: 10.3969/j.issn.0517-6611.2016.11.052
[56]

Li X, Liu H, Li J, He X, Gong P, et al. 2020. Experimental study and multi–objective optimization for drip irrigation of grapes in arid areas of northwest China. Agricultural Water Management 232:106039

doi: 10.1016/j.agwat.2020.106039
[57]

Li T, Zhou X, Liu C, Zhang Y, Wang M. 2021. Effect of water-nitrogen coupling on yield and water use efficiency of kidney bean. Fresenius Environmental Bulletin 30:6516−29

[58]

Wang H, Wu L, Wang X, Zhang S, Cheng M, et al. 2021. Optimization of water and fertilizer management improves yield, water, nitrogen, phosphorus and potassium uptake and use efficiency of cotton under drip fertigation. Agricultural Water Management 245:106662

doi: 10.1016/j.agwat.2020.106662