Register      Login
Crop and Pasture Science Crop and Pasture Science Society
Plant sciences, sustainable farming systems and food quality
Shopping Cart: ( empty )
You are here: Home > Journals > CP > CP20383
RESEARCH ARTICLE
Contents Vol 72(5)

Technical feasibility of using suboptimal irrigation in maize cropping

Isabela Cristina Martins Oliveira https://orcid.org/0000-0002-5089-8838 A D , Camilo de Lelis Teixeira de Andrade https://orcid.org/0000-0003-4582-2190 B , João Carlos Ferreira Borges Júnior https://orcid.org/0000-0001-8178-8167 A , Rosangela Maria Simeão https://orcid.org/0000-0001-8351-846X B C and Ana Paula Coelho Madeira Silva https://orcid.org/0000-0002-1942-8555 A
+ Author Affiliations
- Author Affiliations

A Graduate Program in Agricultural Sciences, Federal University of São João del Rei, Rodovia MG 424, Km 47, 35701-970, Sete Lagoas, MG, Brazil.

B Core of Water, Soil and Environmental Sustainability, Embrapa Milho e Sorgo, Rodovia MG-424, Km 45, 35701-970, Sete Lagoas, MG, Brazil.

C Vegetable Production Group, Embrapa Gado de Corte, Av. Rádio Maia, 79106-550, Campo Grande, MS, Brazil.

D Corresponding author. Email: isabelacmartins@yahoo.com.br

Crop and Pasture Science 72(5) 348-360 https://doi.org/10.1071/CP20383
Submitted: 1 October 2020  Accepted: 16 March 2021   Published: 26 May 2021

Abstract

Maize (Zea mays L.) is one of the main cereal crops grown around the world and is widely used as food, feed and raw material in various industries. However, the crop is sensitive to weather conditions, and this causes large variations in yield between crop seasons. Suboptimal irrigation can be used to secure reasonable yields with increased water productivity. For maize grown offseason in the Cerrado biome of Brazil, there is little knowledge about the benefits of suboptimal irrigation. This study was designed to evaluate the effect of different irrigation amounts and two Brachiaria cultivars intercropped with maize on maize grain yield, biomass production for silage and water productivity in the second crop season. The study was conducted at Embrapa Milho e Sorgo Experimental Station, Sete Lagoas, MG, Brazil, in 2018 and 2019. Six irrigation levels were obtained by using a line-source sprinkler irrigation system. The irrigation levels used ranged from 94% to 11% of the cumulative reference evapotranspiration (ET0) in 2018, and from 90% to 34% of ET0 in 2019. Suboptimal irrigation above a certain level did not cause a significant decrease in silage biomass (59% and 71% of the ET0, in 2018 and 2019, respectively) and grain productivity (48% and 60% of the ET0, in 2018 and 2019, respectively). Additionally, there was an increase in crop water productivity and irrigation water productivity, for biomass of both silage and grains. The results demonstrate the potential of suboptimal irrigation as a strategy to reduce water resource usage while maintaining acceptable productivity levels.

Keywords: irrigation management, line-source, sustainability, water scarcity, Zea mays.


References

Abendroth LJ, Elmore RW, Boyer MJ, Marlay SK (2011) ‘Corn growth and development.’ (Iowa State University Extension: Ames, IA, USA)

ABIMILHO (2019) Oferta e Demanda do Milho – Brasil. Estatisticas. Associação Brasileira das Indústrias do Milho, São Paulo, SP, Brazil. Available at: http://www.abimilho.com.br/estatisticas (accessed 17 September 2019)

Akinmutimi AL (2015) Estimation of water requirements of early and late season maize in Umudike southeastern Nigeria, using Penman’s equation. Journal of Soil Science and Environmental Management 6, 24–28.
Estimation of water requirements of early and late season maize in Umudike southeastern Nigeria, using Penman’s equation.Crossref | GoogleScholarGoogle Scholar |

Albuquerque PEP, Andrade CLT (2001) Planilha eletrônica para a programação da irrigação de culturas anuais. Circular Técnica 10. Embrapa Milho e Sorgo, Sete Lagoas, MG, Brazil. Available at: https://ainfo.cnptia.embrapa.br/digital/bitstream/CNPMS/13765/1/Circ_10.pdf (accessed 20 August 2019)

Allen RG, Pereira LS, Raes D, Smith M (1998) ‘Crop evapotranspiration: guidelines for computing crop requirements.’ FAO Irrigation and Drainage Paper No. 56. (Food and Agriculture Organization of the United Nations: Rome)

Almeida ACS, Bonifácio J, Pusch M, Oliveira FC, Geseinhoff LO, Biscaro GA (2017) Produtividade e eficiência de uso da água em milho cultivado com diferentes estratégias de manejo hídrico. Revista Brasileira de Agricultura Irrigada 11, 1448–1457.
Produtividade e eficiência de uso da água em milho cultivado com diferentes estratégias de manejo hídrico.Crossref | GoogleScholarGoogle Scholar |

Alvares CA, Stape JL, Sentelhas PC, De Moraes Gonçalves JL, Sparovek G (2013) Köppen’s climate classification map for Brazil. Meteorologische Zeitschrift 22, 711–728.
Köppen’s climate classification map for Brazil.Crossref | GoogleScholarGoogle Scholar |

Alves BM, Cargnelutti Filho A, Burin C, Toebe M, Silva LP (2015) Divergência genética de milho transgênico em relação à produtividade de grãos e da qualidade nutricional. Ciência Rural 45, 884–891.
Divergência genética de milho transgênico em relação à produtividade de grãos e da qualidade nutricional.Crossref | GoogleScholarGoogle Scholar |

Amaral TA, de Andrade CdeLT, Souza VFde, Paixão JdeS (2016) Resposta de cultivares de milho ao estresse hídrico. Documentos 207. Embrapa Milho e Sorgo, Sete Lagoas, MG, Brazil. Available at: https://ainfo.cnptia.embrapa.br/digital/bitstream/item/161052/1/doc-207-1.pdf (accessed 25 November 2019)

Amudha J, Balasubramani G (2011) Recent molecular advances to combat abiotic stress tolerance in crop plants. Biotechnology and Molecular Biology Reviews 6, 31–58.

Anupoju V, Kambhammettu BVNP (2020) Role of deficit irrigation strategies on ET partition and crop water productivity of rice in semi-arid tropics of south India. Irrigation Science 38, 415–430.
Role of deficit irrigation strategies on ET partition and crop water productivity of rice in semi-arid tropics of south India.Crossref | GoogleScholarGoogle Scholar |

Araújo LS, Branquinho JAS, Silveira PM, Silva LGB, Valente MS, Siqueira MVR, Cunha PCR (2018) Produtividade de milho solteiro e consorciado com Urochloa brizantha em dois espaçamentos de plantio no Sudeste de Goiás. Agrarian 11, 307–318.
Produtividade de milho solteiro e consorciado com Urochloa brizantha em dois espaçamentos de plantio no Sudeste de Goiás.Crossref | GoogleScholarGoogle Scholar |

Bastiaanssen WGM, Steduto P (2017) The water productivity score (WPS) at global and regional level: methodology and first results from remote sensing measurements of wheat, rice and maize. The Science of the Total Environment 575, 595–611.
The water productivity score (WPS) at global and regional level: methodology and first results from remote sensing measurements of wheat, rice and maize.Crossref | GoogleScholarGoogle Scholar |

Bell JM, Schwartz R, McInnes KJ, Howell T, Morgan CLS (2018) Deficit irrigation effects on yield and yield components of grain sorghum. Agricultural Water Management 203, 289–296.
Deficit irrigation effects on yield and yield components of grain sorghum.Crossref | GoogleScholarGoogle Scholar |

Beloni T, Santos PM, Rovadoscki GA, Balachowski J, Volaire F (2018) Large variability in drought survival among Urocloa spp. cultivars. Grass and Forage Science 73, 947–957.
Large variability in drought survival among Urocloa spp. cultivars.Crossref | GoogleScholarGoogle Scholar |

Bernini CS, Guimarães P de S, Garcia LAC, Paterniani MEAGZ (2016) Caracteres fisiológicos e agronômicos em progênies interpopulacionais de milho selecionadas sob condições de déficit hídrico. Revista Brasileira de Milho e Sorgo 15, 39–52.
Caracteres fisiológicos e agronômicos em progênies interpopulacionais de milho selecionadas sob condições de déficit hídrico.Crossref | GoogleScholarGoogle Scholar |

Chai Q, Gan Y, Zhao C, Xu H-L, Waskom RM, Niu Y, Siddique KWM (2016) Regulated deficit irrigation for crop production under drought stress: a review. Agronomy for Sustainable Development 36, 3
Regulated deficit irrigation for crop production under drought stress: a review.Crossref | GoogleScholarGoogle Scholar |

Chipfupa U, Wale E (2019) Smallholder willingness to pay and preferences in the way irrigation water should be managed: a choice experiment application in KwaZulu-Natal, South Africa. Water SA 45, 383–392.
Smallholder willingness to pay and preferences in the way irrigation water should be managed: a choice experiment application in KwaZulu-Natal, South Africa.Crossref | GoogleScholarGoogle Scholar |

Comas LH, Trout TJ, DeJonge KC, Zhang H, Gleason SM (2019) Water productivity under strategic growth stage-based deficit irrigation in maize. Agricultural Water Management 212, 433–440.
Water productivity under strategic growth stage-based deficit irrigation in maize.Crossref | GoogleScholarGoogle Scholar |

CONAB (2019) Acompanhamento da safra brasileira de grãos: safra 2019/20 – segundo levantamento. Companhia Nacional de Abastecimento, Brasília, DF. Available at: https://www.conab.gov.br/info-agro/safras/graos (accessed 17 September 2019)

Conover WJ (1999) ‘Practical nonparametric statistics.’ (Wiley Online Library: New York)

de Melo MLA, Camilo JA, de Andrade C de LT, Amaral TA, Tigges CHP (2019) Simulação da produtividade potencial de silagem de milho em municípios de Minas Gerais. Documentos 234. Embrapa Milho e Sorgo, Sete Lagoas, MG, Brazil. Available at: https://ainfo.cnptia.embrapa.br/digital/bitstream/item/200116/1/doc-234.pdf (accessed 29 January 2020)

Durães FOM (2006) Limitações fisiológicas do milho nas condições de plantio nas regiões tropicais baixas. In ‘Proceedings XXVI Congresso Nacional de Milho e Sorgo’. 27–31 August 2006, Belo Horizonte, MG. (Embrapa Milho e Sorgo) Available at: https://ainfo.cnptia.embrapa.br/digital/bitstream/item/50215/1/Limitacoes-fisiologicas.pdf (accessed 25 September 2019)

EMBRAPA (2019) Soluções tecnológicas. Empresa Brasileira de Pesquisa Agropecuária, Brasília, DF. Available at: https://www.embrapa.br/busca-de-solucoes-tecnologicas/-/produto-servico (accessed 20 May 2019)

Ferreira WPM, Souza CF (2011) Caracterização climática das séries temporais de temperatura e precipitação pluvial em Sete Lagoas, MG. Boletim de Pesquisa e Desenvolvimento 35. Embrapa Milho e Sorgo, Sete Lagoas, MG, Brazil. Available at: https://www.infoteca.cnptia.embrapa.br/infoteca/bitstream/doc/917585/1/Caracterizacaoclimatica.pdf (accessed 13 June 2020)

Ferreira EB, Cavalcanti PP, Nogueira DA (2013) ‘ExpDes.pt: Pacote experimental designs (Portuguese). R package version 1.1.2.’ (R Foundation for Statistical Computing: Vienna)

Flach R, Skalský R, Folberth C, Balkovič J, Jantke K, Schneider UA (2020) Water productivity and footprint of major Brazilian rainfed crops: a spatially explicit analysis of crop management scenarios. Agricultural Water Management 233, 105996
Water productivity and footprint of major Brazilian rainfed crops: a spatially explicit analysis of crop management scenarios.Crossref | GoogleScholarGoogle Scholar |

Freitas FCL, Ferreira LR, Ferreira FA, Santos MV, Agnes EL, Cardoso AA, Jakelaitis A (2005) Formação de pastagem via consórcio de Brachiaria brizantha com o milho para silagem no sistema de plantio direto. Planta Daninha 23, 49–58.
Formação de pastagem via consórcio de Brachiaria brizantha com o milho para silagem no sistema de plantio direto.Crossref | GoogleScholarGoogle Scholar |

Galvão JCC, Borém A, Pimentel MA (2015) ‘Milho: do plantio à colheita.’ 2nd edn (Editora UFV: Viçosa, MG, Brazil)

Garcia CMP, Andreotti M, Filho MCMT, Buzetti S, Celestrino TS, Lopes KSM (2013) Desempenho agronômico da cultura do milho e espécies forrageiras em sistema de integração lavoura–pecuária no Cerrado. Ciência Rural 43, 589–595.
Desempenho agronômico da cultura do milho e espécies forrageiras em sistema de integração lavoura–pecuária no Cerrado.Crossref | GoogleScholarGoogle Scholar |

Gheysari M, Sadeghi S-H, Loescher HW, Amiri S, Zareiana MJ, Majidif MM, Asgariniaf P, Payero JO (2017) Comparison of deficit irrigation management strategies on root, plant growth and biomass productivity of silage maize. Agricultural Water Management 182, 126–138.
Comparison of deficit irrigation management strategies on root, plant growth and biomass productivity of silage maize.Crossref | GoogleScholarGoogle Scholar |

Grassini P, Yang H, Irmak S, Thorburn J, Burr C, Cassman KG (2011) High-yield irrigated maize in the Western U.S. Corn Belt: II. Irrigation management and crop water productivity. Field Crops Research 120, 133–141.
High-yield irrigated maize in the Western U.S. Corn Belt: II. Irrigation management and crop water productivity.Crossref | GoogleScholarGoogle Scholar |

Greaves GE, Wang Y-M (2017) Yield response, water productivity, and seasonal water production functions for maize under deficit irrigation water management in southern Taiwan. Plant Production Science 20, 353–365.
Yield response, water productivity, and seasonal water production functions for maize under deficit irrigation water management in southern Taiwan.Crossref | GoogleScholarGoogle Scholar |

Hanks RJ, Sisson DV, Hurst RL, Hubbard KG (1980) Statistical analysis of results from irrigation experiments using the line-source sprinkler system. Soil Science Society of America Journal 44, 886–888.
Statistical analysis of results from irrigation experiments using the line-source sprinkler system.Crossref | GoogleScholarGoogle Scholar |

Jha PK (2019) ‘Agronomic management of corn using seasonal climate predictions, remote sensing and crop simulation models.’ (Michigan State University: East Lansing, MI, USA)

Karrou M, Oweis T, El Enein RA, Sherif M (2012) Yield and water productivity of maize and wheat under deficit and raised bed irrigation practices in Egypt. African Journal of Agricultural Research 7, 1755–1760.
Yield and water productivity of maize and wheat under deficit and raised bed irrigation practices in Egypt.Crossref | GoogleScholarGoogle Scholar |

Kirchner JH, Robaina AD, Peiter MX, Torres RR, Mezzomo W, Ben LWB, Pimenta BDP, Pereira AC (2019) Funções de produção e eficiência no uso da água em sorgo forrageiro irrigado. Agrária 14, e5646
Funções de produção e eficiência no uso da água em sorgo forrageiro irrigado.Crossref | GoogleScholarGoogle Scholar |

Klocke NL, Currie RS, Tomsicek DJ, Koehn JW (2012) Sorghum yield response to deficit irrigation. Transactions of the ASABE 55, 947–955.
Sorghum yield response to deficit irrigation.Crossref | GoogleScholarGoogle Scholar |

Lesk C, Rowhani P, Ramankutty N (2016) Influence of extreme weather disasters on global crop production. Nature 529, 84–87.
Influence of extreme weather disasters on global crop production.Crossref | GoogleScholarGoogle Scholar |

Levene H (1960) Robust tests for equality of variances. In ‘Contributions to probability and statistics: essays in honor of Harold Hotelling’. (Eds I Olkin et al.) pp. 278–292. (Stanford University Press: Palo Alto, CA, USA)

Levidow L, Zaccaria D, Maia R, Vivas E, Todorovic M, Scardigno A (2014) Improving water-efficient irrigation: prospects and difficulties of innovative practices. Agricultural Water Management 146, 84–94.
Improving water-efficient irrigation: prospects and difficulties of innovative practices.Crossref | GoogleScholarGoogle Scholar |

Li Y, Tao H, Zhang B, Huang S, Wang P (2018) Timing of water deficit limits maize kernel setting in association with changes in the source–flow–sink relationship. Frontiers in Plant Science 9, 1326
Timing of water deficit limits maize kernel setting in association with changes in the source–flow–sink relationship.Crossref | GoogleScholarGoogle Scholar |

Manning DT, Lurbé S, Comas LH, Trout TJ, Flynn N, Fonte SJ (2018) Economic viability of deficit irrigation in the Western US. Agricultural Water Management 196, 114–123.
Economic viability of deficit irrigation in the Western US.Crossref | GoogleScholarGoogle Scholar |

Marouelli WA, Oliveira AS, Coelho EF, Nogueira LC, Sousa VF (2011) Manejo da água de irrigação. In ‘Irrigação e fertirrigação em fruteiras e hortaliças’. (Eds VF Sousa, WA Marouelli, EF Coelho, JM Pinto, MA Coelho Filho) pp. 157–232. (Embrapa: Brasília, DF)

Martin JD, Carlesso R, Aires NP, Gatto JC, Dubou V, Fries HM, Scheibler RB (2012) Irrigação deficitária para aumentar a produtividade da água na produção de silagem de milho. Irriga 1, 192–205.
Irrigação deficitária para aumentar a produtividade da água na produção de silagem de milho.Crossref | GoogleScholarGoogle Scholar |

Mekonnen MM, Hoekstrab AY, Nealea CM, Rayd C, Yange HS (2020) Water productivity benchmarks: the case of maize and soybean in Nebraska. Agricultural Water Management 234, 106122
Water productivity benchmarks: the case of maize and soybean in Nebraska.Crossref | GoogleScholarGoogle Scholar |

Montgomery DC (2001) ‘Design and analysis of experiments.’ 3rd edn (John Wiley & Sons: New York)

Nhemachena C, Matchaya G, Nhlengethwa S, Nhemachena CR (2018) Exploring ways to increase public investments in agricultural water management and irrigation for improved agricultural productivity in Southern Africa. Water SA 44, 474–481.
Exploring ways to increase public investments in agricultural water management and irrigation for improved agricultural productivity in Southern Africa.Crossref | GoogleScholarGoogle Scholar |

Panoso LA, Ramos DP, Brandão M (2002) Solos do Campo Experimental da Embrapa Milho e Sorgo: suas características e classificação no novo sistema brasileiro. Boletim de Pesquisa e Desenvolvimento 05. Embrapa Milho e Sorgo, Sete Lagoas, MG, Brazil. Available at: https://ainfo.cnptia.embrapa.br/digital/bitstream/CNPS/11831/1/bpd05_2002_milho_sorgo.pdf (accessed 25 March 2020)

Pariz CM, Andreotti M, Azenha MV, Bergamaschine AF, Mello FMM, Lima RC (2011) Produtividade de grãos de milho e massa seca de braquiárias em consórcio no sistema de integração lavoura pecuária. Ciência Rural 41, 875–882.
Produtividade de grãos de milho e massa seca de braquiárias em consórcio no sistema de integração lavoura pecuária.Crossref | GoogleScholarGoogle Scholar |

Payero JO, Tarkalson DD, Irmak S, Davison D, Petersen JL (2009) Effect of timing of a deficit irrigation allocation on corn evapotranspiration, yield, water use efficiency and dry mass. Agricultural Water Management 96, 1387–1397.
Effect of timing of a deficit irrigation allocation on corn evapotranspiration, yield, water use efficiency and dry mass.Crossref | GoogleScholarGoogle Scholar |

Pegorare AB, Fedatto E, Pereira SB, Souza LCF, Fietz CR (2009) Irrigação suplementar no ciclo do milho ‘safrinha’ sob plantio direto. Revista Brasileira de Engenharia Agrícola e Ambiental 13, 262–271.
Irrigação suplementar no ciclo do milho ‘safrinha’ sob plantio direto.Crossref | GoogleScholarGoogle Scholar |

Portes deTA, Carvalho SIC, Oliveira IP, Kluthcouski J (2000) Análise do crescimento de uma cultivar de braquiária em cultivo solteiro e consorciado com cereais. Pesquisa Agropecuária Brasileira 35, 1349–1358.
Análise do crescimento de uma cultivar de braquiária em cultivo solteiro e consorciado com cereais.Crossref | GoogleScholarGoogle Scholar |

Rao SS, Regar PL, Tanwar SPS, Singh YV (2013) Wheat yield response to line source sprinkler irrigation and soil management practices on medium-textured shallow soils of arid environment. Irrigation Science 31, 1185–1197.
Wheat yield response to line source sprinkler irrigation and soil management practices on medium-textured shallow soils of arid environment.Crossref | GoogleScholarGoogle Scholar |

Ren X, Sun D, Wang Q (2016) Modeling the effect of planting density on maize productivity and water balance in the Loess Plateau of China. Agricultural Water Management 171, 40–48.
Modeling the effect of planting density on maize productivity and water balance in the Loess Plateau of China.Crossref | GoogleScholarGoogle Scholar |

Ribeiro AC, Guimarães PTG, Alvarez VVH (1999) ‘Recomendações para o uso de corretivos e fertilizantes em Minas Gerais – 5° aproximação.’ (CFSEMG: Viçosa, MG, Brazil)

Rodrigues GC, Pereira LS (2009) Assessing economic impacts of deficit irrigation as related to water productivity and water costs. Biosystems Engineering 103, 536–551.
Assessing economic impacts of deficit irrigation as related to water productivity and water costs.Crossref | GoogleScholarGoogle Scholar |

Santos AO, Ávila CLS, Pinto JC, Carvalho BF, Dias DR, Schwan RF (2015) Fermentative profile and bacterial diversity of corn silages inoculated with new tropical lactic acid bacteria. Journal of Applied Microbiology 120, 266–279.
Fermentative profile and bacterial diversity of corn silages inoculated with new tropical lactic acid bacteria.Crossref | GoogleScholarGoogle Scholar |

Silva PIB, Fontes DR, Moraes HMF, Gonçalves VA, Silva DV, Ferreira LR, Felipe RS (2014) Crescimento e rendimento do milho e da braquiária em sistema consorciado com diferentes manejos de plantas daninhas. Planta Daninha 32, 301–309.
Crescimento e rendimento do milho e da braquiária em sistema consorciado com diferentes manejos de plantas daninhas.Crossref | GoogleScholarGoogle Scholar |

Silva DV, Pereira GAM, Freitas MAM, Silva AA, Sediyama T, Silva GS, Ferreira LR, Cecon PR (2015a) Produtividade e teor de nutrientes do milho em consórcio com braquiária. Ciência Rural 45, 1394–1400.
Produtividade e teor de nutrientes do milho em consórcio com braquiária.Crossref | GoogleScholarGoogle Scholar |

Silva FA, Freitas FCL, Rocha PRR, Cunha JLXL, Dombroski JLD, Coelho MEH, Lima MFP (2015b) Milho para ensilagem cultivado nos sistemas de plantio direto e convencional sob efeito de veranico. Semina: Ciências Agrárias 36, 327–340.
Milho para ensilagem cultivado nos sistemas de plantio direto e convencional sob efeito de veranico.Crossref | GoogleScholarGoogle Scholar |

Silva LD, Pereira OG, Silva TC, Leandro ES, Paula RA, Santos SA, Ribeiro KG, Valadares Filho SC (2018) Effects of Lactobacillus buchneri isolated from tropical maize silage on fermentation and aerobic stability of maize and sugarcane silages. Grass and Forage Science 73, 660–670.
Effects of Lactobacillus buchneri isolated from tropical maize silage on fermentation and aerobic stability of maize and sugarcane silages.Crossref | GoogleScholarGoogle Scholar |

Souza LSB, Moura MSB, Sediyama GC, Silva TGF (2011) Eficiência do uso da água das culturas do milho e do feijão-caupí sob sistemas de plantio exclusivo e consorciado no semiárido brasileiro. Bragantia 70, 715–721.
Eficiência do uso da água das culturas do milho e do feijão-caupí sob sistemas de plantio exclusivo e consorciado no semiárido brasileiro.Crossref | GoogleScholarGoogle Scholar |

Stacciarini TCV, Castro PHC, Borges MA, Guerin HF, Moraes PAC, Gotardo M (2010) Effect of row spacing reduction and increase in population density on agronomic traits of corn. Revista Ceres 57, 516–519.
Effect of row spacing reduction and increase in population density on agronomic traits of corn.Crossref | GoogleScholarGoogle Scholar |

Tari AF (2016) The effects of different déficit irrigation strategies on yield, quality, and water-use efficiencies of wheat under semi-arid conditions. Agricultural Water Management 167, 1–10.
The effects of different déficit irrigation strategies on yield, quality, and water-use efficiencies of wheat under semi-arid conditions.Crossref | GoogleScholarGoogle Scholar |

Tukey JW (1977) ‘Exploratory data analysis.’ (Addison-Wesley: Boston, MA, USA)

USDA (2014) ‘Illustrated guide to soil taxonomy.’ USDA. (U.S. Department of Agriculture, Natural Resources Conservation Service, National Soil Survey Center: Lincoln, NE, USA)

Valentín F, Nortes PA, Domínguez A, Sánchez JM, Intrigliolo DS, Alarcón JJ, López-Urrea R (2020) Comparing evapotranspiration and yield performance of maize under sprinkler, superficial and subsurface drip irrigation in a semi-arid environment. Irrigation Science 38, 105–115.
Comparing evapotranspiration and yield performance of maize under sprinkler, superficial and subsurface drip irrigation in a semi-arid environment.Crossref | GoogleScholarGoogle Scholar |

Warburton ML, Womack ED, Tang JD, Thrash A, Smith JS, Xu W, Murray SC, Williams WP (2018) Genome-wide association and metabolic pathway analysis of corn earworm resistance in maize. The Plant Genome 11, 170069
Genome-wide association and metabolic pathway analysis of corn earworm resistance in maize.Crossref | GoogleScholarGoogle Scholar |

Zhang S, Sadras V, Chen X, Zhang F (2014) Water use efficiency of dryland maize in the Loess Plateau of China in response to crop management. Field Crops Research 163, 55–63.
Water use efficiency of dryland maize in the Loess Plateau of China in response to crop management.Crossref | GoogleScholarGoogle Scholar |

Zhang P, Wei T, Li Y, Zhang Y, Cai T, Ren X, Han Q, Jia Z (2019) Effects of deficit irrigation combined with rainwater harvesting planting system on the water use efficiency and maize (Zea mays L.) yield in a semiarid area. Irrigation Science 37, 611–625.
Effects of deficit irrigation combined with rainwater harvesting planting system on the water use efficiency and maize (Zea mays L.) yield in a semiarid area.Crossref | GoogleScholarGoogle Scholar |

Zheng H, Shao R, Xue Y, Ying H, Yin Y, Cui Z, Yang QH (2020) Water productivity of irrigated maize production systems in Northern China: a meta-analysis. Agricultural Water Management 234, 106119
Water productivity of irrigated maize production systems in Northern China: a meta-analysis.Crossref | GoogleScholarGoogle Scholar |