PDF(2096 KB)
Research and Development Trend of Farmland Utilization of Sewage Sludge at Home and Abroad
HELiang, ZHANGYitao, DONGKuijun
Chin Agric Sci Bull ›› 2026, Vol. 42 ›› Issue (13) : 124-134.
PDF(2096 KB)
Abbreviation (ISO4): Chin Agric Sci Bull
Editor in chief: Yulong YIN
PDF(2096 KB)
Research and Development Trend of Farmland Utilization of Sewage Sludge at Home and Abroad
The rational use of sewage sludge as a fertilizer substitute plays an important role in improving the physicochemical and biological properties of farmland soils. Clarifying the research and development trend of agricultural utilization of sewage sludge at home and abroad can provide a reference for realizing the resource utilization of domestic waste and improving farmland fertility. Based on the analysis of domestic and foreign published English literature on the agricultural utilization of sewage sludge during 1990-2025, this study analyzed the development history, hot spots and frontier differences between domestic and foreign research in this field by using literature co-citation, keyword co-occurrence and other bibliometric analysis methods. The results showed that: compared with developed countries such as European countries and the United States, although China published fewer articles in English in the late 1990s and early 21st century, China had become the country with the largest number of publications by 2025, accounting for 15% of the global total, with a betweenness centrality of 0.13. The number of papers published in the United States was slightly lower than that of China, but the betweenness centrality was the highest of 0.26. Among the world’s top 20 highly cited hot papers, 2 were from China. The Chinese Academy of Sciences ranked first in the world in terms of the number of papers published among research institutions. China, European countries and the United States and other developed countries had the greatest influence and played leading roles in this research field. Overall, research in this field both domestically and internationally focused on sewage sludge, soil, heavy metals, etc. Particularly from 2020 to 2025, the research focused in this field was mainly biased toward agriculture, composting, co-digestion, digestate and other technical means. In conclusion, China, European countries and the United States are in the forefront of the world in the field of farmland utilization of sewage sludge, the current domestic and foreign research mainly focus on sewage sludge treatment technology and its reasonable application in farmland. In the future research, attention should be paid to the safety and stability of new sewage sludge products in the field of farmland, with particular attention to the environmental risks posed by emerging contaminants such as microplastics in sewage sludge and its by-products. In addition, in-depth research on the mechanism of sewage sludge on soil microbial form and quantity can be conducted, as well as improving the nutrient recovery and utilization system of sewage sludge. While improving the quality of research papers, we should actively promote the combination of scientific research and production practice, build a development model of multi-disciplinary and multi-field cross-integration, and maximize the promotion of sustainable development of agriculture.
sewage sludge / agriculture / visual analysis / bibliometrics / CiteSpace
| [1] |
|
| [2] |
|
| [3] |
|
| [4] |
|
| [5] |
|
| [6] |
|
| [7] |
|
| [8] |
|
| [9] |
李杰, 陈超美. CiteSpace科技文本挖掘及可视化[M]. 北京: 首都经济贸易大学出版社, 2017:77-88.
|
| [10] |
邱均平. 文献计量学[M]. 北京: 科学出版社, 2019:1-13.
|
| [11] |
刘波, 李学斌, 何高吉, 等. 基于Web of Science数据库的土壤呼吸知识图谱分析[J]. 土壤通报, 2021:443-453.
|
| [12] |
封亮, 王淑彬, 唐海鹰, 等. 乡村生态文明研究知识图谱:基于CiteSpace V可视化分析[J]. 生态与农村环境学报, 2021:137-144.
|
| [13] |
赵洪猛, 王慎强, 赵旭, 等. 基于CiteSpace的土壤碳氮磷交互研究可视化分析[J]. 土壤, 2022, 54(4):682-690.
|
| [14] |
Sewage sludge is used as a fertilizer replacement in agricultural soils for its chemical properties, such as organic matter content, and for its capability to improve physical soil characteristics like porosity. This is also an appealing disposal option for residue whose production is increasing worldwide. However, there is some concern about the presence of potentially toxic elements (PTEs) that can accumulate in soils and become available for crops. In this work, a study was conducted to evaluate the extractability and crops transfer of thirteen PTEs from soils that had been amended with biosolids each year for 15 years as a regular agricultural practice. The study was conducted with barley (winter cereal) and maize (spring cereal) crops. After this long period, an increase in the amount of Pb, Hg, Zn and Ag in soils amended by biosolids was confirmed. However, it is important to emphasize that the PTE total content in croplands was still far below the thresholds established by US and European regulations. Statistically significant differences were also found between the soils fertilized with biosolids and other treatments compared with the potential phytoavailable amount of Cu, Se, Sb and especially for As and Zn, by a DTPA leaching test. Despite these results, the concentration of PTEs in the barley and maize grains grown in fields repeatedly amended with biosolids was not statistically different from those grown with chemical fertilization, except for As in barley grains. In this case, a significant correlation was found between the DTPA-extractable As content in soils and the total content in grains (r = 0.83).Copyright © 2018 Elsevier Ltd. All rights reserved.
|
| [15] |
|
| [16] |
|
| [17] |
|
| [18] |
|
| [19] |
|
| [20] |
This study investigated the effect of ferric nitrate on mitigating the inhibition of volatile fatty acids (VFAs) during the initial phase of sewage sludge composting amended with rice bran. During the 34-day lab-scale composting, the supplementation of ferric nitrate enhanced the degradation of VFAs by up to 3 times as compared to the control. The organic matters loss (OML) rate in the treatment reactor was almost doubled with supplementation of ferric nitrate as compared to the control reactor during the initial phase. Eventually the treatment reactor achieved a 39.0% OML by the end of composting, which was 22% higher than the control. Ferric nitration addition mitigated the inhibition of VFAs by stimulating denitrification which consumed protons and VFAs. Ferric nitrate addition also decreased the electrical conductivity by 23% in the final compost product, reducing the possibility of phytotoxicity issue upon soil application. In summary, the results demonstrated that ferric nitrate addition could be an effective strategy for enhanced sludge composting.Copyright © 2017 Elsevier Ltd. All rights reserved.
|
| [21] |
|
| [22] |
|
| [23] |
|
| [24] |
|
| [25] |
|
| [26] |
|
| [27] |
|
| [28] |
|
| [29] |
|
| [30] |
|
| [31] |
|
| [32] |
|
| [33] |
The application of organic fertilizer is a sustainable approach to maintain soil fertility in agricultural crop production. In contrast to other organic fertilizers, the digestate from by-products of anaerobic digestion has not been well characterized in terms of its agronomic properties. In this study, different fertilization treatments were investigated to evaluate their impacts on growth, yield and fruit quality of tomatoes and on soil properties under greenhouse and field conditions. The experiments comprised a control (unfertilized) and three treatments with the same nitrogen dose: chemical fertilizer, digestate from by-product (organic fertilizer) and digestate combined with chemical fertilizer.
|
| [34] |
Field experiments were conducted to study the effect of sewage sludge application on the heavy metal content in soils and grasses. The sewage sludge was obtained from Northern Shenyang Wastewater Treatment Plant, China, and applied at 0, 15, 30, 60, 120 and 150tha(-1). Native grasses Zoysia japonica and Poa annua were chosen as experimental plants. The experimental results showed that nutrient content of the soil, especially organic matter, was increased after sewage sludge application. The grass biomass was increased and the grass growing season was longer. Heavy metal concentrations in the soil also increased; however, the Zn content did not exceed the stringent Chinese environmental quality standard for soil. Pb and Cu did not exceed the standard for B grade soil, but Cd concentration in soil amended by sewage sludge has exceeded the B grade standard. Therefore, it is suggested that the sewage sludge produced from the wastewater treatment plant should not be applied to farmland, for which B grade soil or better is required. The sludge is suitable for application to forestry and grasslands or nurseries where food chain contamination with cadmium is not a concern.
|
| [35] |
Improving soil fertility/productivity and reducing environmental impact of nitrogen (N) fertilization are essential for sustainable agriculture. Quantifying the contribution of various fertilization regimes to soil N storage and loss has been lacking in a wide range of spatiotemporal scales. Based on data collected from field experiments at three typical agricultural zones in China, soil N dynamics and N changes in soil profile (0-100 cm) were examined during 1990-2009 under chemical fertilization, manure incorporation with fertilizer, and fertilizer with straw return treatments. We employed a mass balance approach to estimate the N loss to the environment after taking into account soil N change. Results showed a significant increase in soil N storage under manure incorporation treatments, accompanied with the lowest N loss (ave. 20-24% of total N input) compared to all other treatments (ave. 35-63%). Both soil N distribution and mass balance data suggested higher leaching risk from chemical fertilization in acidic soil of southern China with higher precipitation than the other two sites. This research concludes that manure incorporation with chemical fertilizer not only can achieve high N use efficiency and improve soil fertility, but also leads to the lowest total N loss or damage to the environment.
|
| [36] |
|
| [37] |
|
| [38] |
|
| [39] |
|
| [40] |
|
| [41] |
何强, 吉芳英, 李家杰. 污泥处理处置及资源化途径与新技术[J]. 给水排水, 2016, 52(2):1-3.
|
| [42] |
李琼, 华珞, 徐兴华, 等. 城市污泥农用的环境效应及控制标准的发展现状[J]. 中国生态农业学报, 2011, 19(2):468-476.
|
| [43] |
|
| [44] |
Objetivou-se, com este trabalho, avaliar os teores de metais pesados no solo e em plantas de girassol adubadas com doses de lodo de esgoto. O experimento foi desenvolvido em Cambissolo Háplico, no período de abril a setembro de 2011. Os tratamentos, distribuídos no delineamento em blocos casualizados, com quatro repetições, corresponderam a um tratamento com adubação química e cinco doses de lodo de esgoto aplicadas com base nos teores de N do resíduo e na exigência de N do girassol (0; 4,84; 9,68; 19,36 e 29,04 t ha-1, em base seca). Os teores de Zn no solo e na planta foram maiores nos tratamentos com a aplicação de lodo de esgoto quando comparados com a adubação química. A aplicação de lodo de esgoto resulta em aumento nos teores de Cu, Ni e Pb no solo e não apresenta influência sobre os teores de Zn, Fe, Mn, B, Cd e Cr neste substrato. Por outro lado, na planta, com o aumento da dose de lodo de esgoto, houve aumento dos teores de Zn, Cu e Mn e redução do teor de Pb.
|
| [45] |
|
| [46] |
|
| [47] |
余杰, 田宁宁, 王凯军, 等. 中国城市污水处理厂污泥处理、处置问题探讨分析[J]. 环境工程学报, 2007(1):82-86.
|
| [48] |
|
| [49] |
|
| [50] |
Small cylinders were filled to a depth of 20 cm with Ludas sand to which different organic wastes, viz. sewage sludge, press mud, green manure and farmyard manure had been added up to a maximal rate equivalent to 827, 1043, 1370 and 542 t/ha. The cylinders were set in the ground and kept moist. At the end of 308 days' equilibration period, the samples were used for measuring soil water retention, saturated hydraulic conductivity as well as the horizontal infiltration with 0.01 M CaCl2 and alcohol. An apparent advancing contact angle was calculated from the last two measurements. The incorporation of all the organic wastes caused an appreciable increase in the amount of water retained at a given pressure potential. Increase in available water was caused by the application of sewage sludge and press mud only. Hydraulic conductivity, penetration coefficient and cumulative horizontal infiltration decreased markedly with additions of these materials. The maximum decrease in hydraulic conductivity was in case of press mud (93%), whereas the maximum decrease in penetration coefficient was in case of farmyard manure (81%). The contact angle, which plays an important role in penetration of water into porous materials, increased more in conventional organic manures (green manure and farmyard manure) than in municipal and industrial wastes (sewage sludge and press mud).
|
| [51] |
|
| [52] |
|
| [53] |
|
| [54] |
|
| [55] |
|
| [56] |
|
| [57] |
|
| [58] |
|
| [59] |
|
| [60] |
|
| [61] |
|
| [62] |
|
| [63] |
|
| [64] |
|
| [65] |
|
| [66] |
|
| [67] |
The long maturation period and greenhouse gas (GHG) emission are two major problems that arise during aerobic composting, mainly due to the low efficiency of O transmission and utilization. In this study, a novel electric-field-assisted aerobic composting (EAC) process was tested by simply applying a direct-current voltage of 2 V to a conventional aerobic composting (CAC) process. Compared with the CAC process, the maturation time and the total GHG for the EAC process were reduced by 33% and 70%, respectively. Furthermore, the analyses of O consumption and microbial communities demonstrated that the electric field had enhanced O utilization by 30 ± 9% and increased the relative abundance of electroactive bacteria by about 3.4-fold compared to CAC. This work has represented a proof of principle for EAC and suggests that the electric field is an effective and environmentally friendly strategy for enhancing compost maturity and mitigating GHG emissions during aerobic composting.Copyright © 2019. Published by Elsevier Ltd.
|
| [68] |
|
| [69] |
|
| [70] |
|
| [71] |
Although there are many studies on the characterization of C in biochar and its C sequestration potential, there is little knowledge on the mineral fraction in biochar and its weathering. The latter, however, can have powerful implications on nutrient availability. In the present study, a modified Soxhlet reactor was used to simulate the long-term geochemical weathering of an ash-rich biochar produced from sewage sludge of a non-industrial area in New Zealand. The weathering process took place during a period of 300 h, with and without the addition of humic acid (1.00 g added to 20.00 g of biochar), and the treatments were referred to as treatment BC-HA and BC-B, respectively. Both the leaching kinetics and the transformations within the solid phase were studied. The results revealed that substantial amounts of K (8.5-10.2%) and S (20.2-28.3%) were recovered in the weathering solutions. Noticeable Ca (17.9-20.7%) and P (15.4%) in the solid were released but only a few were recovered in the weathering solutions because of the precipitation. The presence of humic acids increased this dissolution and thus the availability of K, S, Ca, Mg and P, but induced N immobilization. Nitrogen availability was already very low (<1.0% of the total N) due to the probable recalcitrant heterocyclic N structure. The pH of the biochar samples dropped from 8.4 to 7.5; this was mainly attributed to loss of base cations through leaching and probable carbonation of the system. The XPS spectra evidenced the oxidation of C in biochar during the weathering process with the formation of carbonyl and carboxylic functional groups. The results obtained in this study showed some promise for the positive use of modified Soxhlet extractor in simulating the geochemical weathering in ash-rich biochars and providing a better understanding on the kinetics of nutrient release. This will be key information in assessing the added value of biochars as soil amendments.Copyright 2010 Elsevier Ltd. All rights reserved.
|
| [72] |
Contribution rates of factors controlling sludge dewaterability during bioleaching, such as sludge pH, microbial quantity, extracellular polymeric substances (EPS), etc., were investigated in this study. Results showed that the dewaterability of bioleached sludge was jointly enhanced by the growth of Acidithiobacillus sp., the increase of Fe(3+) concentration, the decreases of sludge pH, heterotrophic microorganism quantity change, and the decreases of EPS and bound water contents. Ridge regression analysis further revealed that the contribution rates of microbial quantity change, bound water content and slime EPS content on sludge dewaterability enhancement were 32.50%, 24.24%, and 22.37%, respectively, all of which are dominant factors. Therefore, the enhancement of sludge dewaterability was mainly controlled by microbial quantity change and the decrease of bound water and slime EPS contents during bioleaching. Copyright © 2014 Elsevier Ltd. All rights reserved.
|
| [73] |
This study examined the ability of two biochars converted from anaerobically digested biomass to sorb heavy metals using a range of laboratory sorption and characterization experiments. Initial evaluation of DAWC (digested dairy waste biochar) and DWSBC (digested whole sugar beet biochar) showed that both biochars were effective in removing a mixture of four heavy metals (Pb(2 +), Cu(2+), Ni(2+), and Cd(2+)) from aqueous solutions. Compared to DAWC, DWSBC demonstrated a better ability to remove Ni and Cd. Further investigations of lead sorption by the two biochars indicated that the removal was mainly through a surface precipitation mechanism, which was confirmed by batch sorption experiments, mathematical modeling, and examinations of lead-laden biochars samples using SEM-EDS, XRD, and FTIR. The lead sorption capacity of the two biochars was close to or higher than 200mmol/kg, which is comparable to that of commercial activated carbons.Copyright © 2012 Elsevier Ltd. All rights reserved.
|
| [74] |
|
| [75] |
|
| [76] |
|
| [77] |
|
| [78] |
|
| [79] |
|
/
| 〈 |
|
〉 |