Coupling effects of irrigation level and terrain slope on disease, yield and quality of Panax notoginseng under micro-sprinkler irrigation

IF 5.9 1区 农林科学 Q1 AGRONOMY
Jiankai Tang , Xiulu Yue , Qiliang Yang , Jiaping Liang , Haidong Wang
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Abstract

At present, the state has introduced the policy of forest Chinese herbal medicine planting planning, strictly prohibiting the planting of Chinese herbal medicine in basic farmland, coupled with the fact that the continuous cropping obstacles of Panax notoginseng have not yet been solved, which makes the area of arable land suitable for planting become less and less. However, the effect of soil moisture regulation on the growth of Panax notoginseng cultivated on sloping arable land has not been reported. Thus, the aim of this study was to investigate the impact of various irrigation levels and slopes on Panax notoginseng agronomic traits, physiological characteristics, disease attributes, biomass, and quality characteristics. During 2018–2020, a field experiment was conducted in the Panax notoginseng growing seasons with three irrigation levels (I1: 70–75% θFC, I2: 75–80% θFC, I3: 80–85% θFC) and three slopes (S1: 2.43°, S2: 6.38°, S3: 16.38°). The results evidenced that the photosynthetic characteristics, root hydraulic conductivity characteristics, biomass and PNS of Panax notoginseng reached the maximum value in the I2S2 treatment, and at the same time, the incidence rate of Panax notoginseng root rot was the lowest. Therefore, based on the results of this study, irrigation volume I2S2 should be regarded as the optimal slope and irrigation management strategies for reducing Panax notoginseng diseases and realizing stable yield and quality improvement of Panax notoginseng. A multi-objective optimization model was established through binary quadratic regression analysis. The findings evidenced that when the irrigation interval was 187–203 mm and the slope interval was 5–10.7°, Panax notoginseng had the lowest incidengce rate, and the root biomass and saponin content reached > 95% of the maximum values at the same time.

Abstract Image

Abstract Image

微喷灌条件下灌溉水平和地形坡度对三七病害、产量和质量的耦合效应
目前,国家出台了林下中药材种植规划政策,严禁在基本农田种植中药材,加之连作障碍尚未解决,使得适合种植的耕地面积越来越少。然而,土壤水分调节对坡耕地上栽培植物生长的影响尚未见报道。因此,本研究旨在探讨不同灌溉水平和坡度对农艺性状、生理特性、病害属性、生物量和品质特征的影响。2018-2020年期间,在生长季节进行了3种灌溉水平(I1:70-75% ,I2:75-80% ,I3:80-85%)和3种坡度(S1:2.43°,S2:6.38°,S3:16.38°)的田间试验。结果表明,I2S2 处理的光合特性、根系导水特性、生物量和产量均达到最大值,同时根腐病发病率最低。因此,根据本研究结果,灌溉量 I2S2 应被视为减少病害、实现稳产和提高质量的最佳坡度和灌溉管理策略。 通过二元二次回归分析,建立了多目标优化模型。结果表明,当灌溉间隔为 187-203 mm、坡度间隔为 5-10.7° 时,病害发生率最低,根系生物量和皂苷含量同时达到最大值的 95%以上;当灌溉间隔为 187-203 mm、坡度间隔为 5-10.7° 时,病害发生率最高,根系生物量和皂苷含量同时达到最大值的 95%以上。
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来源期刊
Agricultural Water Management
Agricultural Water Management 农林科学-农艺学
CiteScore
12.10
自引率
14.90%
发文量
648
审稿时长
4.9 months
期刊介绍: Agricultural Water Management publishes papers of international significance relating to the science, economics, and policy of agricultural water management. In all cases, manuscripts must address implications and provide insight regarding agricultural water management.
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