2022
DOI: 10.3389/fpls.2022.1009631
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Manure properties, soil conditions and managerial factors regulate greenhouse vegetable yield with organic fertilizer application across China

Abstract: To better understand the responses of vegetable yields in a greenhouse system to organic fertilizer through a quantitative evaluation based on peer-reviewed journal articles and in consideration of environmental managerial factors. We conducted a meta-analysis of 453 paired observations from 68 peer-reviewed journal articles to assess the response of vegetable yields in greenhouse vegetable systems in China to organic fertilization. Compared with the control (no organic fertilizer), organic fertilization signi… Show more

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Cited by 10 publications
(4 citation statements)
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“…Bio-organic fertilizer can effectively improve soil structure, soil water and fertilizer retention capacity, and crop water and fertilizer use efficiency and yield, in addition to increasing soil water storage [31][32][33]. This study found that the application of bio-organic fertilizer could also reduce water transport rate due to bio-organic fertilizer containing a large amount of organic matter, which infiltrated the soil mass, made it hydrophobic, weakened the soil wetting process and the movement speed of capillary water, slowed down the downward movement speed of water in the soil, prolonged water residence time in the soil, and increased the water-holding capacity of the soil [34].…”
Section: Discussionmentioning
confidence: 99%
“…Bio-organic fertilizer can effectively improve soil structure, soil water and fertilizer retention capacity, and crop water and fertilizer use efficiency and yield, in addition to increasing soil water storage [31][32][33]. This study found that the application of bio-organic fertilizer could also reduce water transport rate due to bio-organic fertilizer containing a large amount of organic matter, which infiltrated the soil mass, made it hydrophobic, weakened the soil wetting process and the movement speed of capillary water, slowed down the downward movement speed of water in the soil, prolonged water residence time in the soil, and increased the water-holding capacity of the soil [34].…”
Section: Discussionmentioning
confidence: 99%
“…Furthermore, the vegetable yields of both M and M+CF treatments increased with manure application; however, manure application was more conducive to an increased leafy and fruity vegetable yield in contrast to stem vegetables. This is due to the former having shallow root systems and a low root density, which enables them to easily assimilate as much available P as possible at the topsoil level ( Xiang et al., 2022 ). These results agree with the findings of our study, namely that cabbage was more sensitive to manure application than lettuce, whereas cabbage yield and PUE were both enhanced compared with lettuce ( Figure 6 , Table 3 ).…”
Section: Discussionmentioning
confidence: 99%
“…Soil porosity is one of the main factors affecting soil water evaporation capacity, and the large number of pores can promote the continuity of water rising movement [26]. Also, bio-organic fertilizer can improve soil water and fertilizer retention capacity by improving soil structure and achieving the effect of improving crop water and fertilizer use efficiency and yield [27,28]. In this study, the M 75 treatment resulted in higher soil water storage and lower evapotranspiration in the first two fertilization years; meanwhile, the same treatment resulted in lower soil water storage and higher evapotranspiration in the third and fourth fertilization years.…”
Section: Discussionmentioning
confidence: 99%