生物可降解地膜可提高有机园艺产量和氮素利用率

IF 3.5 Q1 AGRONOMY Frontiers in Agronomy Pub Date : 2023-05-26 DOI:10.3389/fagro.2023.1141608
Martin Samphire, D. Chadwick, Davey L. Jones
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引用次数: 0

摘要

塑料薄膜覆盖由于其增产和抑制杂草出苗的能力而被广泛使用。然而,它们对植物-土壤-微生物相互作用的影响还不太清楚。有机系统依赖于有机来源的营养供应(例如,肥料和肥力建设肥料),而氮素利用率低往往限制产量。园艺作物(如莴苣)对氮的需求量很大,但从土壤中恢复氮的效率却很低,这使问题更加复杂。PFM对有机肥矿化的影响及其与其他农艺因素(如种植密度)的相互作用的研究也较少。我们假设可生物降解的PFM将是提高有机园艺氮管理效率的有用工具,通过增加有效氮的供应,增加作物对氮的吸收和作物产量,同时减少生长季节的氮损失。我们在温带海洋性气候下进行了两项田间试验,分别使用传统(LDPE) PFM或聚乳酸基可生物降解PFM种植生菜,并进行了未覆盖的对照。第一个试验涉及黑色或白色的pfm和两种种植密度,而第二个试验涉及添加和不添加家禽粪便的处理。总体而言,施用PFM后,两个试验的产量均提高了39%,土壤矿质氮浓度比施用PFM前提高了5倍。土壤有机质(SOM)周转量(茶包指数)和土壤CO2流出量的测量表明,土壤有机质(SOM)在PFM存在下衰减更快。在有禽粪的情况下,施用PFM可使氮素利用效率提高300%。采用PFM的密集种植导致相应的高产量。覆盖地块作物组织中较高的产量和较高的氮浓度(5-10%)导致了更高的总氮吸收量,然而,与土壤浓度相比,总氮吸收量较低:与未覆盖地块相比,覆盖可生物降解的PFM导致了更高的残余矿物氮(77-147 mg kg-1比19 -70 mg kg-1)。我们的结果与在PFM下生长季节减少对环境的氮损失和增加矿化一致。总之,我们的研究结果支持在有机园艺中采用PFM,并表明可生物降解的PFM的性能与基于ldpe的PFM相似。
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Biodegradable plastic mulch films increase yield and promote nitrogen use efficiency in organic horticulture
Plastic film mulches (PFM) are used extensively due to their ability to increase yield and suppress weed emergence. Their effects on plant-soil-microbial interactions, however, are less well understood. Organic systems rely on the supply of nutrients from organic sources (e.g., manures and fertility-building leys) and where poor N availability often limits yield. The issue is compounded by horticultural crops (e.g., lettuce) with a high N demand, but which are inefficient at recovering N from soil. The effect of PFM on the mineralisation of organic fertilisers and its interaction with other agronomic factors such as planting density is also less well-researched. We hypothesised that biodegradable PFM would be a useful tool to increase the efficiency of N management in organic horticulture by increasing the supply of available N leading to increased crop N uptake and crop yield, and simultaneously reducing N losses during the growing season. We conducted two field experiments under a temperate maritime climate with lettuces grown with either conventional (LDPE) PFM or a polylactic acid-based biodegradable PFM alongside un-mulched controls. The first experiment involved black or white coloured PFMs and two planting densities while the second experiment involved treatments with and without addition of poultry manure. Overall, yields were increased by 39% in both experiments with PFM, while soil mineral N concentrations were up to 5 times higher with PFM than without. Measurements of soil organic matter (SOM) turnover (Tea Bag Index) and soil CO2 efflux indicated a more rapid decay of SOM in the presence of the PFM. The use of PFM also promoted N use efficiency (NUE) by 300% in the presence of poultry manure. Denser planting with PFM resulted in proportionately higher yields. Higher yield and higher N concentrations (5-10%) in crop tissue in mulched plots resulted in higher total N uptake, however, total N uptake was low compared to soil concentrations: mulching with biodegradable PFM resulted in higher residual mineral N than un-mulched plots (77-147 mg kg-1 vs. 19 -70 mg kg-1). Our results are consistent with reduced N losses to the environment during the growing season and increased mineralisation under PFM. In conclusion, our findings support the adoption of PFM for organic horticulture and show that biodegradable PFM perform similarly to LDPE-based PFMs.
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来源期刊
Frontiers in Agronomy
Frontiers in Agronomy Agricultural and Biological Sciences-Agricultural and Biological Sciences (miscellaneous)
CiteScore
4.80
自引率
0.00%
发文量
123
审稿时长
13 weeks
期刊最新文献
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