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LIGHT INTERCEPTION AND USE EFFICIENCY DIFFER WITH MAIZE PLANT DENSITY IN MAIZE-PEANUT INTERCROPPING

《农业科学与工程前沿（英文）》 2021年第8卷第3期页码 432-446 doi: 10.15302/J-FASE-2021403

摘要：

Intercropping increases crop yields by optimizing light interception and/or use efficiency. Although intercropping combinations and metrics have been reported, the effects of plant density on light use are not well documented. Here, we examined the light interception and use efficiency in maize-peanut intercropping with different maize plant densities in two row configurations in semiarid dryland agriculture over a two-year period. The field experiment comprised four cropping systems, i.e. monocropped maize, monocropped peanut, maize-peanut intercropping with two rows of maize and four rows of peanut, intercropping with four rows of maize and four rows of peanut, and three maize plant densities (3.0, 4.5 and 6.0 plants m⁻¹ row) in both monocropped and intercropping maize. The mean total light interception in intercropping across years and densities was 779 MJ·m⁻², 5.5% higher than in monocropped peanut (737 MJ·m⁻²) and 7.6% lower than in monocropped maize (843 MJ·m⁻²). Increasing maize density increased light interception in monocropped maize but did not affect the total light interception in the intercrops. Across years the LUE of maize was 2.9 g·MJ⁻¹ and was not affected by cropping system but increased with maize plant density. The LUE of peanut was enhanced in intercropping, especially in a wetter year. The yield advantage of maize-peanut intercropping resulted mainly from the LUE of peanut. These results will help to optimize agronomic management and system design and provide evidence for system level light use efficiency in intercropping.

关键词： dryland agriculture light interception light use efficiency maize-peanut intercropping semiarid

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deoxymugineic acid, a phytosiderophore analog, drives beneficial rhizobacterial community formation to promote peanut

《农业科学与工程前沿（英文）》 doi: 10.15302/J-FASE-2023531

摘要：

● Proline-2′-deoxymugineic (PDMA) significantly altered the bacterial community in the peanut rhizosphere.

关键词： Beneficial rhizobacteria recruitment peanut plant-soil micronutrition enhancement proline-2′-deoxymugineic acid stable microbial network

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论加快我国花生产业发展策略

白选杰

《中国工程科学》 2007年第9卷第2期页码 19-24

摘要：

我国花生产业在种植分布、经济效益、市场潜力方面具有明显优势，同时在政策支持、科技支持、专业化生产、食品安全、深层次加工方面存在不少问题。加快我国花生产业发展的主要措施是：加大政策支持力度，搞好生产规划，加强花生科研，发展专业化种植，加强安全生产，搞好产供销衔接工作，把花生深加工放在重要地位。

关键词：中国花生产业化经营策略

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Experimental research on catalysts and their catalytic mechanism for hydrogen production by gasification of peanut

PEI Aixia, GUO Liejin, JIN Hui

《能源前沿（英文）》 2007年第1卷第4期页码 451-456 doi: 10.1007/s11708-007-0066-2

摘要： Peanut shell, mixed with sodium carboxymethylcellulose, was gasified at a temperature of 450°C and a pressure range from 24 to 27 MPa with the presence of different catalysts, including KCO, ZnCl and Raney-Ni. The experimental results show that different catalysts have greatly different effects on the reaction. Gasification efficiency (GE), hydrogen gasification efficiency (GHE), carbon gasification efficiency (GCE), yield of hydrogen production ( ) and potential yield of hydrogen production () are applied to describe the catalytic efficiency. From the result of gaseous components, ZnCl has the highest hydrogen selectivity, KCO is lower, and Raney-Ni is the lowest, but Raney-Ni is the most favorable to gasify biomass among the three catalysts, and its , , reach 126.84%, 185.71%, 94.24%, respectively. As expected, hydrogen selectivity increased and CH reduced rapidly when the mixture of ZnCl and Raney-Ni is used under the same condition. The optimization mixture appeared when 0.2 g of ZnCl was added to 1 g of Raney-Ni, 43.56 g · kg of hydrogen pro duction was obtained. In addition, the catalytic mechanisms of different catalysts were analyzed, and the possible reaction pathway was brought forward, which helped to explain the experiment phenomena and results correctly.

关键词： presence Raney-Ni biomass optimization mixture possible reaction