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Plastic film mulching with drip irrigation promotes maize (Zea mays L.) yield and water-use efficiency by improving photosynthetic characteristics

Chuanjuan Wang, Yanqun Zhang, Jiandong Wang, Di Xu, Shihong Gong, Zhongdong Wu, Yan Mo, Yuanyuan Zhang

2020Archives of Agronomy and Soil Science20 citationsDOI

Abstract

It is important to reveal the physiological mechanism of water saving and yield increasing of mulched drip irrigation. Three treatments were applied at aspring maize field in Northeast China: mulched drip irrigation (MD), non-mulched drip irrigation (ND) and rain-fed practice (CK). Result showed that, MD treatment increased 5-year (2014–2018) average grain yield (GY) by 18.6% compared with the CK. The GY showed significant linear positive correlations with photosynthetic capacity (Amax) and maximum carboxylation rate (Vcmax). The 2-year (2017–2018)mean Amax and Vcmax of MD were significantly increased by 21.1%and 10.7%, respectively, compared with CK, and the increase was partially contributed by the descending of bundle-sheath cells to CO2 (L). The L of MD was decreased by 6.5–12.4% (P< 0.05) during the jointing and tasseling–milk stages. The relationships between Amax and leaf nitrogen content (Nmass), and between Vcmax and Nmass, were affected by mulching treatment, which indicates that the higher leaf Nuse efficiency of the MD treatment. This study provides atheoretical basis for implementation ofmulched drip-irrigation technology,especially in Northeast China.

Topics & Concepts

Drip irrigationPhotosynthesisMulchIrrigationAgronomyWater-use efficiencyYield (engineering)Zea maysField experimentGrain yieldHorticultureAnimal scienceEnvironmental scienceBiologyBotanyMaterials scienceMetallurgyIrrigation Practices and Water ManagementPlant Water Relations and Carbon DynamicsPlant responses to water stress
Plastic film mulching with drip irrigation promotes maize (Zea mays L.) yield and water-use efficiency by improving photosynthetic characteristics | Litcius