M. Rodrigues, Almeida Sawimbo, Julieta Moreira da Silva, C. Correia, M. Arrobas
{"title":"污水污泥通过释放宝贵的营养成分提高了生菜产量,同时将土壤和植物中的重金属含量控制在远低于国际立法限值的水平","authors":"M. Rodrigues, Almeida Sawimbo, Julieta Moreira da Silva, C. Correia, M. Arrobas","doi":"10.3390/horticulturae10070706","DOIUrl":null,"url":null,"abstract":"Sewage sludge can be used as an organic amendment as long as it is ensured that there is no risk of environmental contamination or risk to public health. In this study, sewage sludge from two wastewater treatment plants (WWTPs) subjected to two disinfection and stabilization treatments [40% (mass/mass), calcium oxide, and calcium hydroxide] and their respective untreated sewage sludge were used. Three control treatments were also added: conventional farmyard manure (FYM), a nitrogen (N) mineral fertilizer (ammonium nitrate 34.5% N) applied at a rate of 50 kg N ha−1 (N50) (the same rate of all organic amendments), and an unfertilized control (N0), totaling nine treatments. Lettuce (Lactuca sativa L.) was cultivated in pots for two growing cycles. The dry matter yield (DMY) was higher in the N50 treatment (13.5 and 10.6 g plant−1 in the first and second growing cycles, respectively), followed by sewage sludge (10.8 to 12.4 and 8.4 to 8.7 g plant−1), FYM (8.5 and 7.2 g plant−1), and the control (7.7 and 6.0 g plant−1). The DMY was related to the N provided by the different treatments, assessed by the N and nitrate concentrations in tissues, N uptake, and apparent N recovery (ANR). Sewage sludge, due to its high N concentration and low carbon (C)/N ratio, mineralized rapidly, providing a significant amount of N to plants, as well as other nutrients, such as phosphorus (P) and boron (B). FYM, with a higher C/N ratio, provided less N to plants, also due to the short duration of the lettuce growing cycle. Alkalized sewage sludge increased soil pH and calcium (Ca) availability for plants. Fertilizer treatments minimally influenced cationic micronutrients. Heavy metals in the initial sewage sludge were below the threshold values established in international legislation, and the levels in soil and lettuce tissues were generally not higher than those in other treatments. Both of the sewage sludges used in this study showed high fertilizing value and very reactive behavior, making nutrients available much more quickly than FYM. This information is relevant to consider in defining their agricultural use.","PeriodicalId":507445,"journal":{"name":"Horticulturae","volume":"57 1‐2","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-07-03","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Sewage Sludge Increased Lettuce Yields by Releasing Valuable Nutrients While Keeping Heavy Metals in Soil and Plants at Levels Well below International Legislative Limits\",\"authors\":\"M. Rodrigues, Almeida Sawimbo, Julieta Moreira da Silva, C. Correia, M. Arrobas\",\"doi\":\"10.3390/horticulturae10070706\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Sewage sludge can be used as an organic amendment as long as it is ensured that there is no risk of environmental contamination or risk to public health. In this study, sewage sludge from two wastewater treatment plants (WWTPs) subjected to two disinfection and stabilization treatments [40% (mass/mass), calcium oxide, and calcium hydroxide] and their respective untreated sewage sludge were used. Three control treatments were also added: conventional farmyard manure (FYM), a nitrogen (N) mineral fertilizer (ammonium nitrate 34.5% N) applied at a rate of 50 kg N ha−1 (N50) (the same rate of all organic amendments), and an unfertilized control (N0), totaling nine treatments. Lettuce (Lactuca sativa L.) was cultivated in pots for two growing cycles. The dry matter yield (DMY) was higher in the N50 treatment (13.5 and 10.6 g plant−1 in the first and second growing cycles, respectively), followed by sewage sludge (10.8 to 12.4 and 8.4 to 8.7 g plant−1), FYM (8.5 and 7.2 g plant−1), and the control (7.7 and 6.0 g plant−1). The DMY was related to the N provided by the different treatments, assessed by the N and nitrate concentrations in tissues, N uptake, and apparent N recovery (ANR). Sewage sludge, due to its high N concentration and low carbon (C)/N ratio, mineralized rapidly, providing a significant amount of N to plants, as well as other nutrients, such as phosphorus (P) and boron (B). FYM, with a higher C/N ratio, provided less N to plants, also due to the short duration of the lettuce growing cycle. Alkalized sewage sludge increased soil pH and calcium (Ca) availability for plants. Fertilizer treatments minimally influenced cationic micronutrients. Heavy metals in the initial sewage sludge were below the threshold values established in international legislation, and the levels in soil and lettuce tissues were generally not higher than those in other treatments. Both of the sewage sludges used in this study showed high fertilizing value and very reactive behavior, making nutrients available much more quickly than FYM. 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引用次数: 0
摘要
只要确保不会造成环境污染或危害公众健康,污水污泥就可以用作有机添加剂。在这项研究中,使用了来自两家污水处理厂的经过两种消毒和稳定化处理[40%(质量/质量)、氧化钙和氢氧化钙]的污水污泥及其各自未经处理的污水污泥。此外,还添加了三种对照处理:常规农家肥(FYM)、氮(N)矿物肥料(硝酸铵,氮含量为 34.5%),施肥量为 50 千克/公顷(N50)(与所有有机添加剂的施肥量相同),以及未施肥对照(N0),共计九种处理。生菜(Lactuca sativa L.)在花盆中栽培了两个生长周期。N50 处理的干物质产量(DMY)较高(第一和第二个生长周期分别为 13.5 和 10.6 g plant-1),其次是污水污泥(10.8 至 12.4 和 8.4 至 8.7 g plant-1)、生石灰(8.5 和 7.2 g plant-1)以及对照(7.7 和 6.0 g plant-1)。DMY 与不同处理提供的氮有关,通过组织中的氮和硝酸盐浓度、氮吸收量和表观氮回收率(ANR)进行评估。污水污泥的氮浓度高,碳(C)/氮比率低,因此矿化速度快,为植物提供了大量的氮以及磷(P)和硼(B)等其他养分。C/N比值较高的堆肥为植物提供的氮较少,这也是由于莴苣的生长周期较短。碱化的污水污泥提高了土壤的 pH 值和植物对钙(Ca)的利用率。肥料处理对阳离子微量营养元素的影响很小。初始污水污泥中的重金属含量低于国际法规规定的阈值,土壤和莴苣组织中的重金属含量一般不高于其他处理方法。本研究中使用的两种污水污泥都具有很高的肥料价值和很强的反应性,使养分的利用速度远高于 FYM。在确定它们的农业用途时,需要考虑这些信息。
Sewage Sludge Increased Lettuce Yields by Releasing Valuable Nutrients While Keeping Heavy Metals in Soil and Plants at Levels Well below International Legislative Limits
Sewage sludge can be used as an organic amendment as long as it is ensured that there is no risk of environmental contamination or risk to public health. In this study, sewage sludge from two wastewater treatment plants (WWTPs) subjected to two disinfection and stabilization treatments [40% (mass/mass), calcium oxide, and calcium hydroxide] and their respective untreated sewage sludge were used. Three control treatments were also added: conventional farmyard manure (FYM), a nitrogen (N) mineral fertilizer (ammonium nitrate 34.5% N) applied at a rate of 50 kg N ha−1 (N50) (the same rate of all organic amendments), and an unfertilized control (N0), totaling nine treatments. Lettuce (Lactuca sativa L.) was cultivated in pots for two growing cycles. The dry matter yield (DMY) was higher in the N50 treatment (13.5 and 10.6 g plant−1 in the first and second growing cycles, respectively), followed by sewage sludge (10.8 to 12.4 and 8.4 to 8.7 g plant−1), FYM (8.5 and 7.2 g plant−1), and the control (7.7 and 6.0 g plant−1). The DMY was related to the N provided by the different treatments, assessed by the N and nitrate concentrations in tissues, N uptake, and apparent N recovery (ANR). Sewage sludge, due to its high N concentration and low carbon (C)/N ratio, mineralized rapidly, providing a significant amount of N to plants, as well as other nutrients, such as phosphorus (P) and boron (B). FYM, with a higher C/N ratio, provided less N to plants, also due to the short duration of the lettuce growing cycle. Alkalized sewage sludge increased soil pH and calcium (Ca) availability for plants. Fertilizer treatments minimally influenced cationic micronutrients. Heavy metals in the initial sewage sludge were below the threshold values established in international legislation, and the levels in soil and lettuce tissues were generally not higher than those in other treatments. Both of the sewage sludges used in this study showed high fertilizing value and very reactive behavior, making nutrients available much more quickly than FYM. This information is relevant to consider in defining their agricultural use.
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