Long-Term Persistence of Organic Chemicals in Sewage Sludge-Amended Agricultural Land: A Soil Quality Perspective

The aim of this work was to identify the most sensitive soil quality indicators and assess soil quality after long-term application of sewage sludge (SS) and conventional mineral fertilization for rainfed cereal production in a sub-humid Mediterranean calcareous soil. The treatments included six combinations of SS at different doses (40 t ha−1 and 80 ha−1) and frequencies (every 1, 2 and 4 years), plus a control with mineral fertilization, and a baseline control without fertilization. Twenty-five years after the onset of the experiment, 37 pre-selected physical, chemical and biological soil parameters were measured, and a minimum data set was determined. Among these indicators, those significantly affected by treatment and depth were selected as sensitive. A principal component analysis (PCA) was then performed for each studied depth. At 0–15 cm, PCA identified three factors (F1, F2 and F3), and at 15–30 cm, two factors (F4 and F5) that explained 71.5% and 67.4% of the variation, respectively, in the soil parameters. The most sensitive indicators (those with the highest correlation within each factor) were related to nutrients (P and N), organic matter, and trace metals (F1 and F4), microporosity (F2), earthworm activity (F3), and exchangeable cations (F5). Only F3 correlated significantly (and negatively) with yield. From these results, we concluded that soil quality can be affected in opposite directions by SS application, and that a holistic approach is needed to better assess soil functioning under SS fertilization in this type of agrosystem.

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Evaluation of Land Potential for Use of Biosolids in the Coastal Mediterranean Karst Region

Land ◽

10.3390/land10101035 ◽

2021 ◽

Vol 10 (10) ◽

pp. 1035

Author(s):

Vito Horvatić ◽

Helena Bakić Begić ◽

Davor Romić ◽

Marko Černe ◽

Smiljana Goreta Ban ◽

...

Keyword(s):

Wastewater Treatment ◽

Sewage Sludge ◽

Agricultural Land ◽

Rapid Development ◽

Land Application ◽

Karst Region ◽

Identification System ◽

Management Options ◽

Biosolids Application

The aim of this study was to evaluate the potential of agricultural land in the coastal Adriatic Karst region (Šibenik region, Croatia) for biosolids application by integrating spatial data from different sources: digital maps and remote sensing, parcel identification system, GIS field observations and measurements focusing on specific land and soil properties. Due to the rapid development of the wastewater treatment industry, excessive accumulation of sewage sludge (SS) in wastewater treatment plants is a growing problem worldwide. Management options for land application of biosolids require a comprehensive characterization of both SS and SS-amended soils. The assessment of agricultural land in the study area for SS disposal was based on EU and national legislation. The evaluation revealed that agricultural land in the study area accounts for only 10% of the total area (25,736 ha), but only a quarter of the existing land (6065 ha) is suitable for biosolids application. Furthermore, the data indicate that the sewage sludge can be safely applied to the soil in terms of soil metals according to the Croatian legislation. The short-term potential of the soil to sustain this ecosystem service, namely soil improvement with biosolids, should be used to determine the inherent long-term potential based on resistance to soil degradation and resilience. However, caution is needed and the long-term effects should be investigated before biosolids are continuously used for soil application.

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Opportunity for increasing the soil quality of non-arable and depleted soils in South Africa: A review

10.21203/rs.3.rs-376735/v1 ◽

2021 ◽

Author(s):

Angelique Daniell ◽

Danél van Tonder

Keyword(s):

South Africa ◽

Soil Quality ◽

Agricultural Land ◽

Climatic Conditions ◽

Food Sources ◽

Increasing Demand ◽

Water Scarce ◽

Growing Population ◽

Rock Dust

Abstract The improvement of food security strategies on highly degraded soils has become a major challenge for South Africa, as the need to secure food sources for the growing population under harsher climatic conditions. South Africa is one of the many water scarce countries and is label 30th driest country in the world. The ability of a soil to serve as a growth medium for plants is directly influenced by the chemical, physical, and biological parameters but most importantly the fertility of the soil, which is a prominent part of soil quality. Numerous methods exist to enhance and maintain soil quality including the application of fertilizers and the other includes the application of geological materials to the soil. Basalt (commonly referred to as rock dust) application as a soil amendment has been the focus of numerous long-term studies on soil fertility. The results of long-term application of rock dust have indicated a reduction in continuously applying additional amendment, resulting in more sustainable farming operations. When considering South Africa's relative scarcity of available agricultural land and harsh climatic conditions against the increasing demand placed on food production by a growing population combined with water scarcity, it becomes evident that it is necessary to search for new innovative methods to improve soil quality, which is deemed non-arable and/or depleted. The potential for basalt in re-mineralisation and application on non-arable soil in South Africa hold enormous benefits for the economy.

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Soil Quality and Crop Yields, After Utilization of Sewage Sludge on Agricultural Land, in the Moldavian Plain, Romania

Cercetari Agronomice in Moldova ◽

10.2478/v10298-012-0001-1 ◽

2012 ◽

Vol 45 (1) ◽

pp. 5-18 ◽

Cited By ~ 4

Author(s):

C. Ailincăi ◽

G. Jităreanu ◽

D. Bucur ◽

Despina Ailincăi

Keyword(s):

Sewage Sludge ◽

Soil Quality ◽

Agricultural Land ◽

Crop Yields ◽

Agricultural Research ◽

Zinc Content ◽

Mineral Fertilizers ◽

Research Station ◽

Organic Carbon Content ◽

Winter Rape

Soil Quality and Crop Yields, After Utilization of Sewage Sludge on Agricultural Land, in the Moldavian Plain, Romania Investigations conducted at the Podu-Iloaiei Agricultural Research Station, Iaşi County, have studied the influence of different sewage sludge rates on yield quality and quantity and soil agrochemical characteristics. Trials were set up in a five year-crop rotation, winter rape-wheat-maize-sunflower-wheat. Sewage sludge was applied every 2 years at rates of 20, 30, 40 and 60 t/ha, with different mineral fertilizer rates, differentiated according to the growing plant. The Cambic Chernozem used for experiments had a clayey-loam texture (410 g clay, 310 g loam and 280 g sand), a weakly acid reaction and a mean supply with mobile phosphorus and a very good one with mobile potassium. Applying rates of 30 t/ha sewage sludge has resulted in the accumulation of mobile phosphate stock in soil of 57 mg/kg and the microelement content, mobile forms from soil, was of 7.9 mg/kg at Cu, 1.4 mg/kg at B, 6.8 mg/kg at Zn and 186 mg/kg at manganese. The combined use of mean rates of mineral fertilizers (N100P80), together with 40 t/ha sewage sludge has resulted in improving soil chemical characteristics and getting yield increases in winter rape of 1854 kg/ha (108 %). After 8 years since the application of a rate of 30 t/ha sewage sludge, soil pH has increased 0.4 units, while phosphorus and potassium content from soil has increased by 30 and 52 mg/ kg soil, respectively. Sewage sludge from the Iaşi Water Treatment Station, which was applied every two years at rates of 20 and 30 t/ha, has determined the increase in the organic carbon content from soil by 2.9 g/kg (18%) and 4.4 g/kg (28%), respectively, compared to the unfertilized variant. The copper and zinc content from grains in wheat and maize crops, fertilized with 30 t/ha sewage sludge, was by two-four times higher, compared to the unfertilized control.

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Peluang dan Tantangan Implementasi Model Pertanian Konservasi di Lahan Kering

Jurnal Sumberdaya Lahan ◽

10.21082/jsdl.v11n2.2017.77-90 ◽

2020 ◽

Vol 11 (2) ◽

pp. 77

Author(s):

Achmad Rachman

Keyword(s):

Soil Quality ◽

Agricultural Land ◽

Organic Matter Content ◽

Conservation Agriculture ◽

Crop Productivity ◽

Matter Content ◽

Small Scale ◽

Cropping Pattern ◽

Short Term

Abstrak. Pertanian konservasi adalah salah satu alternatif model pada praktek pertanian di lahan kering yang dalam jangka panjang dapat meningkatkan produktivitas tanaman, efisiensi usahatani, dan kualitas lingkungan melalui perbaikan kualitas tanah. Tulisan ini membahas prospek penerapan pertanian konservasi untuk meningkatkan kualitas tanah dan produktivitas lahan kering. Model pertanian konservasi lebih menekankan pada perbaikan kandungan bahan organik tanah melalui kombinasi 3 pendekatan yaitu olah tanah minimum, pemulsaan, dan pengaturan pola tanam. Introduksi model pertanian konservasi di negara-negara berkembang seperti Indonesia, yang umumnya lahan pertaniannya berskala sempit (<1 ha) dihadapkan pada masalah perkembangan gulma dan penurunan produktivitas pada fase awal implementasi, dan lahan yang tidak bersih sehingga berpotensi memicu munculnya hama dan penyakit tertentu. Namun demikian, model pertanian konservasi ini berpotensi untuk mengubah lahan kering terdegradasi atau tidak produktif menjadi lahan pertanian produktif dengan efisiensi usahatani yang tinggi. Dengan manfaat jangka panjang tersebut, maka implementasi pertanian konservasi di lahan kering, yang potensinya mencapai 29,4 juta ha, akan meningkatkan secara signifikan kontribusi lahan kering terhadap upaya mempertahankan swasembada pangan nasional dan meningkatkan kesejahteraan petani lahan kering. Diperlukan proses dan modifikasi untuk mengadaptasikan teknologi ini yang disesuaikan dengan karakteristik agroekosistem, konidisi sosial, dan ekonomi lokal setempat, sehingga berbagai kendala adopsi dapat diminimalisir dan manfaat dapat dioptimalkan baik jangka pendek maupun jangka panjang. Selain itu, diperlukan dukungan pemerintah dalam bentuk pelatihan, advokasi, dan bantuan input usahatani untuk meminimalisir resiko kerugian petani terutama pada tahap awal implementasi teknologi.Abstract. Conservation agriculture is an alternative model to agricultural practices in dryland which in the long term provides a number of benefits including an increase in crop productivity, farm input efficiency and environmental quality through the improvement of soil quality. This paper discusses the prospect for implementing conservation agricultural to improve soil quality and productivity of dryland. The conservation agriculture model emphasizes the improvement of soil organic matter content through a combination of 3 approaches, namely minimum tillage, mulching, and cropping pattern. Introduction of conservation agriculture into developing countries like Indonesia, which are generally small-scale farming (<1 ha), will face a number of obstacles caused by short-term and immediate shortcomings of the technology. These shortcomings include weed development and productivity decline in the early phase of implementation, and the potential to trigger the emergence of certain pests and diseases due to unclean land. However, the practice has the potential to transform degraded or unproductive drylands into more efficient and productive agricultural land. With those long-term benefits of conservation agriculture, its implementation to 29.4 million ha of dryland of Indonesia will boost significantly the contribution of dryland agriculture in sustaining national food self sufficiency and improving the welfare of dryland farmers. Processes and modifications are needed to adapt this practice to suit local agroecosystem, social and local economic characteristics so that various adoption constraints can be minimized and short-term and long-term benefits can be optimized. In addition, government supports are needed in the form of training, advocacy and farm inputs subsidies to minimize the risk of loss of farmers especially in the early stages of technology implementation.

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Resources and Risks: Perceptions on the Application of Sewage Sludge on Agricultural Land in Sweden, a Case Study

Frontiers in Sustainable Food Systems ◽

10.3389/fsufs.2021.647780 ◽

2021 ◽

Vol 5 ◽

Author(s):

Nelson Ekane ◽

Karina Barquet ◽

Arno Rosemarin

Keyword(s):

Sewage Sludge ◽

Agricultural Sector ◽

Agricultural Land ◽

Political Factors ◽

Short And Long Term ◽

Potential Risks ◽

The Subject ◽

Agricultural Input

To spread or not to spread sewage sludge on agricultural land in Sweden remains the subject of a highly polarized debate among different stakeholders in the Swedish agricultural sector. This article presents insights on how stakeholders in Sweden see and explain the potentials and safety of spreading sewage sludge on agricultural land. This is done by drawing on risk perception literature and qualitative research methods. The findings reveal that fear of contamination and feeling of disgust are major deterrents of the use of sludge as an agricultural input. These are partly explained by unknowns and unfamiliarity about risks of unwanted substances in sludge. The study shows that while actors engaged in the practice amplify benefits of sludge as a resource and reiterate the need for emphasis on upstream measures including improved risk management systems, actors in charge of controlling toxins in society amplify actual and potential risks, highlight gaps in monitoring and minimizing risks, and would rather have a complete ban on the practice. This study highlights the complex combination of technical, environmental, socio-economic, psychological, and political factors influencing judgment and decision-making regarding sludge and its use as fertilizer in agriculture and concludes that the clash between facts and feelings which epitomizes the Swedish sludge debate may have implications for public trust and effective risk communication. As contribution to the Swedish sewage sludge debate, this study emphasizes that the benefits of sludge in agriculture is important but not enough to drive the practice to scale. It is even more important to improve understanding on the controllability and severity of risks in short and long-term.

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