Your search keyword '"TILLAGE"' showing total 8,288 results

1. Can conservation tillage and reduced irrigation promote sustainability in agroecosystems through lowering nitrous oxide emissions? A synthesis.

Author

Chen, Junjiang, Li, Guolin C., Lee, Tien Ming, and Veresoglou, Stavros D.

Abstract

Background and Aims: The agriculture sector is a major producer of greenhouse gases. To successfully transition to a green economy, we should further optimise agriculture practices so that we offset emissions while preserving crop productivity. We questioned here how two common organic management practices, reducing irrigation and conservation tillage as well as their interaction modify N2O emissions. Methods: We synthesized across 265 studies and combined a series of linear models and a meta-analytical method of moments to analyze our data. Results: We observed that reducing irrigation induced increases of about 66.1% in N2O emissions in rice but declines of over 17% for other crops, subject to mean annual temperature conditions. No tillage lowered N2O emissions, which was not the case for the reduced tillage practice. This resulted into the overall effect of conservation tillage practices on N2O emissions being non-significant. Conclusion: We present evidence that managing N2O emissions from agroecosystems depends strongly on climatic conditions and crop type used. Mapping those dependencies facilitates budgeting greenhouse gas emissions from agroecosystems and smooths the path towards meeting sustainability targets in agriculture and horticulture. [ABSTRACT FROM AUTHOR]

Published

2024

2. Current and future glyphosate use in European agriculture.

Author

Neve, Paul, Matzrafi, Maor, Ulber, Lena, Baraibar, Bàrbara, Beffa, Roland, Belvaux, Xavier, Farré, Joel Torra, Mennan, Hüsrev, Ringselle, Björn, Salonen, Jukka, Soukup, Josef, Andert, Sabine, Duecker, Rebecka, Gonzalez, Emilio, Hamouzová, Katerina, Karpinski, Isabella, Travlos, Ilias S., Vidotto, Francesco, and Kudsk, Per

Subjects

*AGRICULTURAL conservation, *HERBICIDE resistance, *GLYPHOSATE, *WEED control, *TILLAGE, *AGRICULTURE

Abstract

There has been a longstanding and contentious debate about the future of glyphosate use in the European Union (EU). In November 2023, the European Commission approved the renewal of the use registration for glyphosate for a further 10 years. Nevertheless, the EU Farm to Fork strategy calls for a 50% reduction in pesticide use by 2030. In November 2022, the European Weed Research Society organised a 2 day workshop to identify critical glyphosate uses in current EU cropping systems and to review the availability of glyphosate alternatives. Workshop participants identified four current, critical uses in EU cropping systems; control and management of perennial weeds, weed control in conservation agriculture, vegetation management in tree and vine crops and herbicide resistance management. There are few herbicide alternatives that provide effective, economic, broad‐spectrum control of weeds, particularly perennial weeds. Mechanical weed control, and in particular, soil cultivation is the most obvious glyphosate alternative. However, this is not possible in conservation agriculture systems and, in general, increased soil cultivation has negative impacts for soil health. Emerging technologies for precision weed control can enable more targeted use of glyphosate, greatly reducing use rates. These technologies also facilitate the use and development of alternative targeted physical weed control (e.g. tillage, lasers, electricity), reducing the energy and environmental costs of these approaches. In tree crops, the use of organic and inorganic mulches can reduce the need for glyphosate use. In general, reduced use of glyphosate will require an even greater focus on integrated weed management to reduce weed establishment in agroecosystems, increase weed management diversity and limit the use of alternative resistance‐prone herbicides. [ABSTRACT FROM AUTHOR]

Published

2024

3. Weed seedbank as influenced by tillage and herbicide in direct seeded rice‐mustard cropping sequence in lateritic soil of eastern India.

Author

Jaiswal, Deepak Kumar, Duary, Buddhadeb, Kumar, Ravi Ranjan, and Nath, Chaitanya P.

Subjects

*CROP rotation, *HERBICIDES, *NO-tillage, *WEEDS, *TILLAGE, *WEED control, *TURNIPS

Abstract

The above‐ground community dynamics of weeds represent the soil weed seedbank in an agro‐ecosystem. Hence, understanding the seedbank will offer an idea for future weed management tactics. We aimed to determine the density of weed seedbank and emergence of major weeds in direct seeded rice (DSR) (Oryza sativa L.)—mustard (Brassica campestris L. var. yellow sarson) cropping sequence under varied tillage and herbicide combinations. The present study on weed seedbank was conducted using seedling emergence method after collecting the soils at the harvest of mustard at the completion of 2 years field experimentation. The experiment was conducted in split‐plot design with two tillage practices [zero tillage (ZT) and conventional tillage (CT)] in main plot and eight weed management practices in DSR [oxadiargyl followed by (fb) bispyribac‐sodium, penoxsulam + cyhalofop‐butyl, oxadiargyl fb penoxsulam + cyhalofop‐butyl, fenoxaprop‐p‐ethyl + ethoxysulfuron, oxadiargyl fb fenoxaprop‐p‐ethyl + ethoxysulfuron, pendimethalin fb bispyribac‐sodium, unweeded control, and weed free check] as subplot. The carry‐over effect of tillage and weed management practices were recorded in mustard crop. Seed emergence study revealed that ZT reduced the emergence of grassy weeds (by 13.7%) and total weed emergence (19.5%) in comparison to the CT (p < 0.05). However, emergence of broadleaf weeds was 24.5% higher in ZT than in CT. The higher infestation was recorded for Ludwigia parviflora (Jacq.) Raven under penoxsulam + cyhalofop‐butyl, fenoxaprop‐p‐ethyl + ethoxysulfuron, Cyperus iria (L.) under fenoxaprop‐p‐ethyl + ethoxysulfuron, and Eleusine indica (L.) Gaertn. under pendimethalin fb bispyribac‐sodium, oxadiargyl fb bispyribac‐sodium. Sole application of post‐emergence (POE) herbicide decreased the total weed emergence by 22.2%–28.1% than unweeded control (p < 0.05). Whereas, sequential application of PRE + POE herbicides decreased the total weed emergence by 32.8%–36.9% than unweeded control (p < 0.05). Notably, sedge weeds such as Cyperus iria (L.) and Fimbristylis miliacea (L.) Vahl were lower in ZT than in CT under herbicide treated plots (by 66.6%–84.3%) than unweeded control. Thus, ZT with oxadiargyl 90 g a.i. ha−1fb fenoxaprop‐p‐ethyl + ethoxysulfuron (90 + 15 g a.i. ha−1) as tank‐mix can be effectively used to lower the weed seedbank density vis‐à‐vis managing complex weed flora in DSR and rice‐mustard cropping sequence. [ABSTRACT FROM AUTHOR]

Published

2024

4. Alkaloid rich hydroponic chili for AgNPs synthesis against multidrug resistant Staphylococcus aureus infected burn wounds.

Author

Fatima, Hunaiza, Gul, Alvina, Jadoon, Linta, Hamdani, Syed Damin Abbas, Rajput, Tausif Ahmed, Amir, Rabia, Munir, Faiza, and Babar, Mustafeez Mujtaba

Subjects

*STAPHYLOCOCCUS aureus, *SOFT tissue infections, *TILLAGE, *SOIL profiles, *AGRICULTURE, *METHICILLIN-resistant staphylococcus aureus

Abstract

Hydroponic plant cultivation is expected to replace soil cultivation owing to an increased plant yield and rapid turnover. A number of medicinal plants have been successfully grown in hydroponic system. Effect of hydroponic cultivation on phytochemical content of medicinal plants needs to be investigated for efficient phytomedicine production. Herein, we quantify the bioactive compounds of medicinal importance in hydroponic and soil grown chili for green silver nanoparticles (AgNP) based formulation preparation. The end product has been evaluated as an alternate treatment for skin and soft tissue infections caused by Multidrug Resistant Staphylococcus aureus (MDRSA). Comparable phytochemical profile of soil grown chili extract (CE Soil) and hydroponically grown chili extract (CE Hydro) for increased production of plant sourced medicinally important compounds has been studied. Stable phytosynthesized CE NPs, confirmed by UV visible spectroscopy (UV) Fourier Transform Infrared (FTIR), Dynamic Light Scattering (DLS) and Scanning Electron Microscopy (SEM) analysis, showed enhanced anti-MDRSA activity in vitro with MIC and MBC at 0.312 and 0.625 mg/ml respectively. Hydrogel based CE NPs formulation successfully eliminated burn wound MDRSA infection in vivo while also regenerating the skin. Enhanced CE NPs activity in vitro and in vivo suggests their potential use in combating AMR infections that can further be evaluated in clinical trials. [Display omitted] • Chili can be grown in a variety of cost-effective agricultural conditions. • Silver nanoparticles of chili inhibit Multidrug resistant Staphylococcus aureus. • They contribute to wound healing in infected murine models. • Effective scaling up of hydroponically processed chili plants can be done. [ABSTRACT FROM AUTHOR]

Published

2024

5. Long-Term Effect of Crop Establishment Methods and Tillage Practices on Soil Physical Properties in Rice-Wheat System.

Author

Tater, Arham and Vashisht, B. B.

Subjects

*TILLAGE, *NO-tillage, *SOIL permeability, *CLAY loam soils, *SANDY loam soils, *CROPPING systems, *CROPS

Abstract

Rice-wheat system, the most prevalent cropping system of the Indo-Gangetic plain, nowadays poses a threat to its sustainability owing to deterioration of soil physical parameters, disposal of rice straw and declining yield trends. The present study was aimed to identify the best option of crop establishment, tillage and rice straw retention in rice-wheat system after long-term (2010–2020). The field experiment was conducted on typic Ustochrept sandy clay loam soil. Treatments comprised direct seeded rice with zero tillage (DSRZT), direct seeded rice with conventional tillage (DSRCT), direct seeded rice with reduced tillage (DSRRT) and puddled transplanted rice (PTR) in rice as main plots; and conventionally tilled without rice residue (CTW), zero tilled without residue (ZTW) and zero tilled wheat with residue retention (ZTW+R) in wheat as sub plots. The results revealed that physical parameters like bulk density and soil penetration resistance decreased while, plant available water content, infiltration and hydraulic conductivity of the soil increased significantly in DSRZT, DSRRT and ZTW+R compared to PTR and CTW. Amount of organic carbon enhanced from.42% to.55% and.34% to.39% in both 0–15 and 15–30 cm soil layers, respectively, in DSRZT compared to PTR. Aggregation status also improved in ZT-based treatments in contrast to PTR and CTW treatments. However, the average grain yield of rice was higher by 2.15–19.4% in PTR compared to DSR treatments while; ZTW+R had an advantage of 4.98% and 7.75% in contrast to CTW and ZTW, respectively, in terms of average wheat yield. [ABSTRACT FROM AUTHOR]

Published

2024

6. Nutrient Balance and Soil Fertility of Rainfed Maize-Wheat Cropping System Under Different Seed Priming, Tillage and Nutrient Management Practices.

Author

Kaur, Navneet, Singh, Gurpreet, Gangmei, Tigangam P, Kumar, Anil, Sandal, Sanjeev Kumar, and Manuja, Sandeep

Subjects

*CROPPING systems, *SOIL fertility, *CROP management, *TILLAGE, *SOIL productivity, *CONSERVATION tillage, *NO-tillage

Abstract

Crop productivity, soil quality and fertility have been degraded due to intensive conventional tillage and poor crop management practices. Conservation tillage along with proper crop establishment methods (including seed priming, integrated nutrient management) helps in sustaining the productivity of crops, especially under rainfed conditions. A field experiment was carried out to evaluate the effect of seed priming, tillage and nutrient management practices on nutrient balance; chemical and microbial properties of soil; and productivity of maize-wheat cropping system in rainfed conditions. The experiment was laid out in factorial randomized block design with three factors (tillage, seed priming and nutrient management) and control as independent treatment for general comparison of results. The findings showed that chemical and microbial properties of soil were enhanced under zero tillage+ mulch as compared to other tillage practices. However, crop productivity was higher in conventional tillage+ mulch (70.28 q/ha (maize), 35.27 q/ha (wheat)). Under nutrient management practices, integrated nutrient management proved to be better as compared to recommended dose of fertilizers. Highest production efficiency (32.8 kg ha−1 day−1) was found under CT+M,Hydro,Int. Nutrient balance (N, P, K) was found higher in treatments with integrated nutrient management. [ABSTRACT FROM AUTHOR]

Published

2024

7. Mycorrhizal effects on crop yield and soil ecosystem functions in a long‐term tillage and fertilization experiment.

Author

Peng, Zhenling, Johnson, Nancy Collins, Jansa, Jan, Han, Jiayao, Fang, Zhou, Zhang, Yali, Jiang, Shengjing, Xi, Hao, Mao, Lin, Pan, Jianbin, Zhang, Qi, Feng, Huyuan, Fan, Tinglu, Zhang, Jianjun, and Liu, Yongjun

Subjects

*TILLAGE, *CROP yields, *AGRICULTURE, *SOILS, *ECOSYSTEMS, *NUTRIENT cycles

Abstract

Summary: It is well understood that agricultural management influences arbuscular mycorrhizal (AM) fungi, but there is controversy about whether farmers should manage for AM symbiosis.We assessed AM fungal communities colonizing wheat roots for three consecutive years in a long‐term (> 14 yr) tillage and fertilization experiment. Relationships among mycorrhizas, crop performance, and soil ecosystem functions were quantified.Tillage, fertilizers and continuous monoculture all reduced AM fungal richness and shifted community composition toward dominance of a few ruderal taxa. Rhizophagus and Dominikia were depressed by tillage and/or fertilization, and their abundances as well as AM fungal richness correlated positively with soil aggregate stability and nutrient cycling functions across all or no‐tilled samples. In the field, wheat yield was unrelated to AM fungal abundance and correlated negatively with AM fungal richness. In a complementary glasshouse study, wheat biomass was enhanced by soil inoculum from unfertilized, no‐till plots while neutral to depressed growth was observed in wheat inoculated with soils from fertilized and conventionally tilled plots.This study demonstrates contrasting impacts of low‐input and conventional agricultural practices on AM symbiosis and highlights the importance of considering both crop yield and soil ecosystem functions when managing mycorrhizas for more sustainable agroecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

8. Effects of applying lime and phosphogypsum in soybean and wheat nutrition.

Author

Besen, Marcos Renan, Santos, Glaucio Leboso Alemparte Abrantes dos, Cordioli, Vitor Rodrigues, Coneglian, Carolina Fedrigo, Inoue, Tadeu Takeyoshi, and Batista, Marcelo Augusto

Subjects

*PHOSPHOGYPSUM, *NUTRITIONAL assessment, *NO-tillage, *LIMING of soils, *SOYBEAN, *TILLAGE, *WHEAT, *NUTRITION

Abstract

This study aimed to assess the nutritional status of soybean and wheat and the relationship with grain yield and biometric components after lime and phosphogypsum (GY) reapplication. Treatments consisted of two lime application methods, surface liming and incorporated liming, to different levels of base saturation (BS) (44, 70, and 90%), in addition to surface liming to 70% BS associated with a standard dose (70GY1) or double dose (70GY2) of GY. Treatments were applied in 2012 and reapplied in 2016. The results refer to the 2018/2019 soybean season and the 2019 wheat season. Lime + GY treatment increased leaf area, plant height, leaf dry matter, and stem dry matter in soybean but had no effect on specific leaf area (235.4 cm2 g−1), stem diameter (6.08 mm), number of pods per plant (71.7), grain number per plant (165), or thousand grain weight (117 g). Liming to 90% BS reduced leaf manganese contents in both crops and leaf iron content in soybean. GY application improved the calcium status of both crops and the sulfur status of soybean. However, 70GY2 reduced leaf magnesium contents in soybean and wheat. Soil tillage without lime reduced wheat yield by 12% compared with no-till. Soybean yield correlated positively with leaf nitrogen (0.79), leaf phosphorus (0.91), leaf area (0.62), and thousand grain weight (0.65), whereas wheat yield correlated with leaf phosphorus (0.83), calcium (0.75), and sulfur (0.74). For improved soybean and wheat performance, it is preferable to apply lime and GY to the soil surface (70GY1), permanently maintaining no-till practices. [ABSTRACT FROM AUTHOR]

Published

2024

9. Influence of Vineyard Inter-Row Management on Grapevine Leafhoppers and Their Natural Enemies.

Author

Cargnus, Elena, Kiaeian Moosavi, Seyedeh Fatemeh, Frizzera, Davide, Floreani, Chiara, Zandigiacomo, Pietro, Bigot, Giovanni, Mosetti, Davide, and Pavan, Francesco

Subjects

*LEAFHOPPERS, *GRAPE diseases & pests, *WOLF spiders, *MOWING, *PEST control, *VINEYARDS, *GRAPES

Abstract

Simple Summary: The inter-row management strategy in the vineyard influences the diversity of the vegetation and, consequently, the presence and activity of natural enemies of grapevine pests. This study aims to evaluate whether the replacement of periodical tillage with the alternate mowing of the resident herbaceous vegetation in vineyard inter-rows reduces the density of the European leafhoppers Hebata vitis and Zygina rhamni by improving the presence and activity of their natural enemies in the context of conservation biological control. The results show that, on grapevines with ground vegetation, the number of hunting spiders increases, thus reducing the leafhopper population with their predation activity. Green covering also improves hymenopteran parasitoids characterized for their important role in the grapevine pest control. A greater vegetation diversity in the vineyard improves the landscape quality of the agroecosystem and, by supporting the activity of the natural enemies of grapevine pests, reduces the need for insecticide applications in the vineyards. Inter-row management in vineyards can influence the abundance of grapevine pests and their natural enemies. In 2013–2015, in a vineyard in northeastern Italy, the influence of two vineyard inter-row management strategies (i.e., alternate mowing, AM, and periodical tillage, PT) on the population dynamics of grapevine leafhoppers Hebata vitis and Zygina rhamni and their natural enemies, the mymarid Anagrus atomus and spiders (Araneae), and other hymenopteran parasitoids, were studied with different survey approaches. The infestations of both leafhoppers were lower in AM than PT due to the reduced leafhopper oviposition and higher nymph mortality in AM. This occurred although leafhopper egg parasitization by A. atomus was greater in PT than AM according to a density-dependent relationship with the leafhopper egg amount. Hymenopteran parasitoids other than A. atomus were the most abundant in AM, probably due to the higher availability of nectar and pollen than in PM. The significantly higher population densities of hunting spiders in AM than PT can be associated with the higher predation of leafhopper nymphs. Therefore, the study demonstrated that the alternate mowing of vineyard inter-rows enhances the abundance of natural enemies, such as spiders and hymenopteran parasitoids, and can contribute to grapevine leafhopper pest control. [ABSTRACT FROM AUTHOR]

Published

2024

10. Population Dynamics of Fall Armyworm (Lepidoptera: Noctuidae) in Maize Fields in Uganda.

Author

Ajam, Angella Lowra, Karungi, Jeninah, Ogwal, Geofrey, Adumo, Stella Aropet, Paparu, Pamela, and Otim, Michael Hilary

Subjects

*FALL armyworm, *POPULATION dynamics, *NOCTUIDAE, *PLANT phenology, *CROPPING systems, *CORN, *TILLAGE

Abstract

Simple Summary: Fall armyworm (FAW) was first detected in Uganda in 2016 and has spread to all the maize-growing districts. Different methods have been deployed to control this pest. However, there is a limited understanding of the role of the environment and farmers' practices on the abundance of and damage by S. frugiperda in Uganda. In this study, we aimed to assess the abundance of S. frugiperda and leaf damage levels in three different districts. We explored the association between crop management practices, crop stage, and weather parameters on abundance of and damage by S. frugiperda in smallholder farmers' maize fields using a longitudinal monitoring survey in 69 farmers' fields of Kole, Kiryandongo, and Nakaseke for three seasons. The numbers of egg masses and adults were generally low. The highest numbers of adults were trapped in Kiryandongo, followed by Nakaseke, and the lowest numbers were trapped in Kole. Leaf damage and incidence of damaged plants differed in the different seasons and districts. Conservation tillage, reduced weeding frequency, increase in rainfall and high maximum temperature reduced S. frugiperda leaf damage. There was no relationship between pesticide use frequency and cropping system with S. frugiperda leaf damage. However, the influence of fertilizer use on leaf damage was contradictory across seasons and districts. Timely and vigilant scouting, proper timing of control measures, minimum tillage practices, and crop diversity should be included in integrated management for S. frugiperda. Spodoptera frugiperda (Lepidoptera: Noctuidae), commonly known as fall armyworm, was first detected in Uganda in 2016 and has spread to all the maize-growing districts. Different methods have been deployed to control this pest. However, there is a limited understanding of the role of the environment and farmers' practices on the abundance of and damage by S. frugiperda in Uganda. This study, therefore, assessed the abundance of S. frugiperda and leaf damage levels in three different districts and explored the association between agronomic practices, crop phenology, and weather parameters on S. frugiperda damage and abundance in smallholder farmers' maize fields using a longitudinal monitoring survey in 69 farmers' fields of Kole, Kiryandongo, and Nakaseke for three seasons. The numbers of egg masses and adults were generally low. The highest numbers of adults were trapped in Kiryandongo, followed by Nakaseke, and the lowest numbers were trapped in Kole. Leaf damage and incidence of damaged plants differed significantly between districts and seasons. Leaf damage and abundance of larvae varied significantly in the districts and at different growth stages. Conservation tillage, reduced weeding frequency, increased rainfall and high maximum temperatures were associated with reduced S. frugiperda damage. No significant relationship was observed between pesticide or cropping systems with S. frugiperda leaf damage. However, the influence of fertilizer use on leaf damage was contradictory across seasons and districts. Timely and vigilant scouting, proper timing of control measures, and minimum tillage practices should be included in an IPM strategy for S. frugiperda. [ABSTRACT FROM AUTHOR]

Published

2024

11. Phenotyping Wheat Kernel Symmetry as a Consequence of Different Agronomic Practices.

Author

Aniskina, Tatiana S., Sudarikov, Kirill A., Prisazhnoy, Nikita A., Besaliev, Ishen N., Panfilov, Alexander A., Reger, Nelli S., Kormilitsyna, Tatyana, Novikova, Antonina A., Gulevich, Alexander A., Lebedev, Svyatoslav V., Vernik, Pyotr A., and Baranova, Ekaterina N.

Subjects

*PLOWING (Tillage), *DURUM wheat, *WHEAT, *SEED crops, *GRAIN, *TILLAGE, *SYMMETRY, *RAINFALL

Abstract

The use of instrumental methods of analysis in the assessment of indices that record changes in symmetry in the structure of grains to evaluate the quality of durum and soft wheat grain is currently considered a search tool that will allow us to obtain previously unavailable data by finding correlations associated with differences in the shape and ratio of starch granules in conditionally symmetrical and asymmetrical wheat fruits (kernels) formed in different field conditions and with different genotypes. Indicators that had previously shown their effectiveness were used to analyze the obviously complex unique material obtained as a result of growing under critically unique sowing conditions in 2022, which affected the stability of grain development and filling. For the evaluation, a typical agronomic comparative experiment was chosen, which was used to evaluate the soil tillage practices (fallow, non-moldboard loosening, and plowing) and sowing dates (early and after excessive rainfalls), which made it possible to analyze a wider range of factors influencing the studied indices. The soil tillage methods were found to affect the uniformity of kernel fullness and their symmetry, and the sowing dates did not lead to significant differences. This study presents detailed changes in the shape of the middle cut of a wheat kernel, associated with assessing the efficiency of kernel filling and the symmetrical distribution of storage substances under the influence of external and internal physical factors that affect the formation of the wheat kernel. The data obtained may be of interest to breeders and developers of predictive phenotyping programs for cereal grain and seeds of other crops, as well as plant physiologists. [ABSTRACT FROM AUTHOR]

Published

2024

12. Soil carbon and aggregate stability are positively related and increased under combined soil amendment, tillage, and cover cropping practices.

Author

Thapa, Binita and Mowrer, Jake

Subjects

*SOIL amendments, *SOIL structure, *CARBON in soils, *TILLAGE, *SOIL management

Abstract

Agricultural practices alter the organic carbon dynamics in soil. An experiment was conducted to study the effect of carbon amendments, tillage, and cover cropping on permanganate oxidizable carbon (POXC), total organic carbon (TOC), and wet aggregate stability (WAS) in a 2‐year crop sequence (corn–cover crop–cotton–cover crop) at the Texas A&M Research Farm. Two carbon amendments (biochar and composted biosolid) were applied at the rate of 500 kg C ha−1, along with a control. Two tillage practices were evaluated: conventional tillage (CT) and no‐tillage (No‐Till). A cover crop (CC) mixture of oat, mustard, and pea and no cover crop (No‐CC) were also evaluated. Treatments were arranged in a split‐split plot design with four replications. Amending the soil with carbon as composted biosolid or biochar affected POXC at both the 0‐ to 5‐ and 5‐ to 15‐cm depths. The POXC was significantly higher for the biochar treated plots for corn and CC after corn but significantly lower POXC was observed after cotton with biochar‐treated plots. The POXC increased under No‐Till compared with CT and CC plots relative to No‐CC plots. The TOC was not sensitive to soil management practices. The POXC and TOC both decreased with depth. The WAS greater under No‐Till and CC plots. The POXC and WAS were influenced by soil management practices and can be useful indicators to assess short‐term soil health improvements. The POXC and WAS were positively related, suggesting that one may be used to predict the other. Core Ideas: Permanganate‐oxidizable carbon (POXC) was sensitive to management practices compared to total organic carbon.POXC was greater on no‐tillage compared to conventional tillage.POXC was higher on cover cropped than no cover cropped plots.Soil aggregate stability was positively correlated with POXC.Wet aggregate stability was greater under biochar amended, no‐tillage, and cover cropped plots. [ABSTRACT FROM AUTHOR]

Published

2024

13. No-tillage enhances soil water storage, grain yield and water use efficiency in dryland wheat (Triticum aestivum) and maize (Zea mays) cropping systems: a global meta-analysis.

Author

Adil, Muhammad, Siqi Lu, Zijie Yao, Cheng Zhang, Heli Lu, Bashir, Safdar, Maitah, Mansoor, Gul, Isma, Razzaq, Sehar, and Lin Qiu

Subjects

*CORN, *WATER efficiency, *WHEAT, *CROPPING systems, *TILLAGE, *WATER storage, *SOIL moisture

Abstract

Climate change significantly affects crop production and is a threat to global food security. Conventional tillage (CT) is the primary tillage practice in rain-fed areas to conserve soil moisture. Despite previous research on the effect of tillage methods on different cropping systems, a comparison of tillage methods on soil water storage, crop yield and crop water use in wheat (Triticum aestivum) and maize (Zea mays) under different soil textures, precipitation and temperature patterns is needed. We reviewed 119 published articles and used meta-analysis to assess the effects of three conservation tillage practices (NT, no-tillage; RT, reduced tillage; ST, subsoil tillage), on precipitation storage efficiency (PSE), soil water storage at crop planting (SWSp), grain yield, evapotranspiration (ET) and water use efficiency (WUE) under varying precipitation and temperature patterns and soil textures in dryland wheat and maize, with CT as the control treatment. Conservation tillage methods increased PSE, SWSp, grain yield, ET and WUE in both winter wheat-fallow and spring maize cropping systems. More precipitation water was conserved in fine-textured soils than in medium-textured and coarse-textured soils, which improved ET. Conservation tillage increased soil water conservation and yield under high mean annual precipitation (MAP) and moderate mean annual temperature (MAT) conditions in winter wheat. However, soil water conservation and yield were greater under MAP <400 mm and moderate MAT. We conclude that conservation tillage could be promising for increasing precipitation storage, soil water conservation and crop yield in regions with medium to low MAPs and medium to high MATs. [ABSTRACT FROM AUTHOR]

Published

2024

14. Assessing soil erosion in a semiarid ecosystem in Central Argentina using 137Cs and 7Be measurements.

Author

Lohaiza, Flavia, Juri Ayub, Jimena, Valladares, Diego L., Velasco, Hugo, Rizzotto, Marcos, de Rosas, Juan Pablo, and Paez, Ricardo

Subjects

*SOIL erosion, *CESIUM, *TILLAGE, *ARID regions, *FOREST degradation, *LAND degradation, *SOIL degradation

Abstract

Argentina is a Latin American country which encounters soil degradation problems. The most productive regions have implemented conservative land practices (no-till). However, agricultural frontier has been displaced to marginal lands with arid and semiarid climates, with the consequent disappearance in many areas of native forest and land degradation. In this work, the fallout of gamma-emitting radionuclides, 137Cs and 7Be, was jointly used to assess changes in soil erosion in a recently converted semiarid ecosystem into agricultural land. 137Cs was utilized to estimate the erosion over the past 60 years, whereas 7Be was employed to estimate the erosion after the conversion of the area to cultivated land and soil tillage. For 137Cs the Proportional Model (PM), the Mass Balance Model II (MBMII) and the MODERN model were used, for 7Be the Profile Distribution Model (PDM) and the MODERN model were used. 137Cs indicates mean erosional rates of 8.2, 10.5 and 6.5 Mg ha−1 a−1, using MBMII, PM and MODERN, respectively, and that a soil layer between 0.5 and 0.8 mm was annually lost by erosion. By applying a 7Be tracer, we measured erosion rates of 2.4 and 3.3 Mg ha−1 (with PDM and Modern, respectively), indicating the loss of the upper 0.2 mm of soil. This erosion can be attributed to a few heavy rainfalls that occurred within the past 90 days. The results suggest that current land management practices have led to an increase in soil erosion. This could be attributed to the fact that the soil remains bare after crop harvest, which may compromise its conservation and future productivity. [ABSTRACT FROM AUTHOR]

Published

2024

15. Assessing the effect of soil cultivation methods and genotypes on crop yield components, yield and soil properties in wheat (Triticum aestivum L.) and Rice (Oryza sativa L.) cropping system.

Author

Saini, Ankit, Manuja, Sandeep, Upadhyay, Ram Gopal, Manhas, Shilpa, Sahoo, Chinmaya, Singh, Gurudev, Sharma, Raj Paul, Johnson, Riya, Joel, Joy M., Puthur, Jos T., Imran, Muhammad, and Fayezizadeh, Mohammad Reza

Subjects

*TILLAGE, *CROPPING systems, *WHEAT, *RICE, *CROP yields, *AGRICULTURE, *GREENHOUSE gases

Abstract

Background: The rice-wheat cropping system is the prevailing agricultural method in the North-Western states of India, namely in the Indo-Gangetic plains. The practice of open burning of rice residue is frequently employed for expedient land preparation, but it has significant adverse impacts on both the environment and human health. These include the emission of greenhouse gases, loss of nutrients, elevated concentrations of particulate matter (PM), and disruption of the biological cycle. This research aims to investigate the implementation of effective management strategies in the rice-wheat cropping system, namely via the use of tillage-based crop cultivation techniques, stubble retention, and integration approaches. The objective is to enhance soil health features in order to augment crop yield and improve its attributes. Results: The research was carried out using a split plot experimental design, consisting of three replications. The main plot consisted of four different cultivation methods, while the subplot included three genotypes of both rice and wheat. The research demonstrates the enhanced efficacy of residue application is significantly augmenting soil nutrient concentrations compared to standard tillage practices (P < 0.05). This was accomplished by an analysis of soil nutrient levels, namely nitrogen (N), phosphorus (P), potassium (K), and organic carbon (OC), at a depth of 0–15 cm. The implementation of natural farming, zero tillage, and reduced tillage practices resulted in decreases in rice grain yields of 34.0%, 16.1%, and 10.8%, respectively, as compared to conventional tillage methods. Similarly, the implementation of natural farming, zero tillage, and reduced tillage resulted in reductions in wheat grain yields of 59.4%, 10.9%, and 4.6% respectively, in comparison to conventional tillage practices. Conclusion: Regarding the individual crop genotypes investigated, it was continuously observed that Him Palam Lal Dhan 1 and HPW 368 displayed considerably greater grain yields for both rice and wheat during the two-year experimental period. Furthermore, when considering different cultivation methods, conventional tillage emerged as the most effective approach for obtaining higher productivity in both rice and wheat. Additionally, Him Palam Lal Dhan 1 and HPW 368 exhibited superior performance in terms of various crucial yield components for rice (such as panicle density, grains per panicle, panicle weight, and test weight) and wheat (including effective tiller density, grains per spike, spike weight, and 1000-grain weight). [ABSTRACT FROM AUTHOR]

Published

2024

16. Effects of Different Soil Amendments on Growth, Yield and Nutrients Uptake of Stem Amaranth in Acidic Alluvial-and-Hill Soils in a Subtropical Area.

Author

Jahan, Israt, Hossain, Md. Shahadat, and Kashem, Md. Abul

Subjects

*ACID soils, *SOIL amendments, *NUTRIENT uptake, *AMARANTHS, *TILLAGE

Abstract

Sandy and acidic soil conditions are the major factors limiting the production of some vegetable crops in acidic soils. This study aims to examine the effect of various amendments on the growth, yield and mineral nutrients uptake of stem amaranth. Two pot experiments were conducted separately in two generic soils. Six treatments viz. T0 = control (without amendment), T1= lime, T2 = lime + wetland bottom sediment, T3 = lime + vermicompost, T4 = lime + rice straw biochar (RSB) and T5 = RSB were used for both experiments following CRD with four replications. Results revealed that plant heights (45.96 and 50.33 cm) of amaranth grown in alluvial and hill soils, respectively, were the highest in T4 treatment. Similarly, treatment T4 showed the highest fresh (118.53 and 116.11 g pot−1, respectively) and dry biomasses (16.98 and 19.54 g pot−1, respectively) for both soils. For both soils, treatment T4 resulted better nutrient uptake of N, P, K, S, Zn, Fe and Mn by edible stem, while non-amended soil gave the lowest result at all parameters. Analytical values of post-harvest soils indicated that T4 and/or T5 treatments resulted in an improvement in soil pH, organic carbon, total N, exchangeable K and extractable P, S and Zn. Treatment T3 showed elevated concentrations of extractable soils Fe and Mn. The amendment RSB combined with lime can be preferably used in strong acidic soils for cultivation of stem amaranth. [ABSTRACT FROM AUTHOR]

Published

2024

17. Evaluating the agronomic efficiency of alternative phosphorus sources applied in Brazilian tropical soils.

Author

da Silva, Lucas Jónatan Rodrigues, da Silva Sandim, Aline, da Silva, Ana Paula Rodrigues, Deus, Angélica Cristina Fernandes, Antonangelo, João Arthur, and Büll, Leonardo Theodoro

Subjects

*SUSTAINABLE agriculture, *CLAY soils, *PHOSPHORUS, *TILLAGE, *SOILS

Abstract

Understanding the efficacy of alternative phosphorus (P) sources in tropical soils is crucial for sustainable farming, addressing resource constraints, mitigating environmental impact, improving crop productivity, and optimizing soil-specific solutions. While the topic holds great importance, current literature falls short in providing thorough, region-specific studies on the effectiveness of alternative P sources in Brazilian tropical soils for maize cultivation. Our aim was to assess the agronomic efficiency of alternative P sources concerning maize crop (Zea mays L.) attributes, including height, shoot dry weight, stem diameter, and nutrient accumulation, across five Brazilian tropical soils. In greenhouse conditions, we carried out a randomized complete block design, investigating two factors (soil type and P sources), evaluating five tropical soils with varying clay contents and three alternative sources of P, as well as a commercial source and a control group. We evaluated maize crop attributes such as height, dry weight biomass, and nutrient accumulation, P availability and agronomic efficiency. Our results showed that, although triple superphosphate (TSP) exhibited greater values than alternative P sources (precipitated phosphorus 1, precipitated phosphorus 2 and reactive phosphate) for maize crop attributes (e.g., height, stem diameter, shoot dry weight and phosphorus, nitrogen, sulfur, calcium and magnesium accumulation). For instance, PP1 source increased nutrient accumulation for phosphorus (P), nitrogen (N), and sulfur (S) by 37.05% and 75.98% (P), 34.39% and 72.07% (N), and 41.94% and 72.69% (S) in comparison to PP2 and RP, respectively. Additionally, PP1 substantially increased P availability in soils with high clay contents 15 days after planting (DAP), showing increases of 61.90%, 99.04%, and 38.09% greater than PP2, RP, and TSP. For Ca and Mg accumulation, the highest values were found in the COxisol2 soil when PP2 was applied, Ca = 44.31% and 69.48%; and Mg = 46.23 and 75.79%, greater than PP1 and RP, respectively. Finally, the highest values for relative agronomic efficiency were observed in COxisol2 when PP1 was applied. The precipitated phosphate sources (PP1 and PP2) exhibited a similar behavior to that of the commercial source (TSP), suggesting their potential use to reduce reliance on TSP fertilization, especially in soils with low clay contents. This study emphasized strategies for soil P management, aimed at assisting farmers in enhancing maize crop productivity while simultaneously addressing the effectiveness of alternative P sources of reduced costs. [ABSTRACT FROM AUTHOR]

Published

2024

18. Minor effects of no-till treatment on GHG emissions of boreal cultivated peat soil.

Author

Honkanen, Henri, Kekkonen, Hanna, Heikkinen, Jaakko, Kaseva, Janne, and Lång, Kristiina

Abstract

The greenhouse gas (GHG) emissions of spring cereal monoculture under long-term conventional tillage (CT) and no-till (NT) treatment established in 2018 were measured in a peatland in Southwestern Finland during the period 2018–2021. Nitrous oxide (N2O), carbon dioxide (CO2) and methane (CH4) fluxes were measured with chambers approximately every two weeks throughout the period under study. Net ecosystem exchange was measured during the growing seasons, and hourly ecosystem respiration (ER) and gross photosynthesis (GP) were modelled with empirical models. Across the whole period, annual emissions were 6.8 ± 1.2 and 5.7 ± 1.2 Mg CO2–C ha −1 yr−1 (net ecosystem carbon balance), 8.8 ± 2.0 and 7.1 ± 2.0 kg N2O–N ha−1 yr−1, and − 0.43 ± 0.31 and − 0.40 ± 0.31 kg CH4-C ha−1 yr−1 for CT and NT, respectively. The global warming potential was lower in NT (p = 0.045), and it ranged from 26 to 34 Mg CO2 eq. ha−1 yr−1 in CT and from 19 to 31 Mg CO2 eq. ha−1 yr−1 in NT. The management effect on the rates of single GHGs was not consistent over the years. Higher GP was found in CT in 2019 and in NT in 2020. Differences in ER between treatments occurred mostly outside the growing season, especially after ploughing, but the annual rates did not differ statistically. NT reduced the N2O emissions by 31% compared to CT in 2020 (p = 0.044) while there were no differences between the treatments in other years. The results indicate that NT may have potential to reduce slightly CO2 and N2O emissions from cultivated peat soil, but the results originate from the first three years after a management change from CT to NT, and there is still a lack of long-term results on NT on cultivated peat soils. [ABSTRACT FROM AUTHOR]

Published

2024

19. Wheat rhizosphere dynamics of Trichoderma gamsii A5MH and suppression of a Pythium root rot-Fusarium crown rot disease complex over two consecutive cropping seasons.

Author

Stummer, Belinda E, Zhang, Xinjian, Moghaddam, Minoo J, Yang, Hetong, and Harvey, Paul R

Subjects

*GROWING season, *RHIZOSPHERE, *TRICHODERMA, *PYTHIUM, *WHEAT, *ROOT rots, *PHYTOPHTHORA, *TILLAGE

Abstract

Aims Determine the wheat rhizosphere competence of Trichoderma gamsii strain A5MH and in planta suppression of the Pythium root and Fusarium crown rot pathogens Globisporangium irregulare and Fusarium pseudograminearum. Methods and results Wheat was continuously cropped (eight years) at a minimum tillage, low growing season rainfall (GSR ≤ 170 mm) site shown as highly conducive to Pythium root and Fusarium crown rots. Root isolation frequency (RIF) and qPCR were used to determine the rhizosphere dynamics of strain A5MH and the target pathogens at tillering, grain harvest, and in postharvest stubble over the final 2 years. Strain A5MH actively colonized the wheat rhizosphere throughout both growing seasons, had high root abundance at harvest [log 4.5 genome copies (GC) g−1] and persisted in standing stubble for at least 293-d postinoculation. Globisporangium irregulare was most abundant in roots at tillering, whereas F. pseudograminearum was only abundant at harvest and up to 9-fold greater in the drier, second year (GSR 105 mm). Strain A5MH decreased RIF of both pathogens by up to 40%, root abundance of G. irregulare by 100-fold, and F. pseudogaminearum by 700-fold, but was ineffective against crown rot in the second year when pathogen abundance was >log 6.0 GC g−1 root. Strain A5MH increased crop emergence and tillering biomass by up to 40%. Conclusions Further trials are required to determine if the A5MH-induced pathogen suppression translates to yield improvements in higher rainfall regions where non-cereal rotations reduce crown rot inoculum. [ABSTRACT FROM AUTHOR]

Published

2024

20. Influence of Cropping Sequence and Tillage System on Plant-Parasitic Nematodes and Peanut (Arachis hypogaea) Response to Fluopyram Applied at Planting.

Author

Foote, Ethan, Jordan, David, Gorny, Adrienne, Dunne, Jeffrey, Lux, LeAnn, Ahumada, Daisy, Shew, Barbara, Brandenburg, Rick, and Ye, Weimin

Subjects

*PEANUTS, *TILLAGE, *NO-tillage, *ARACHIS, *CROP rotation, *COTTON, *SOIL nematodes, *NEMATODES

Abstract

Crop sequence and tillage can affect the yield of peanut (Arachis hypogaea L.) and other crops. Research was conducted from 2006 through 2022 to determine the response of peanut to previous crop sequences including corn (Zea mays L.) and cotton (Gossypium hirsutum L.) planted in continuous conventional tillage (e.g., disking, field cultivating, and bedding with in-row sub-soiling) or strip tillage (e.g., tilling a 45 cm section on rows spaced 91 cm apart using fluted coulters, rolling baskets, and in-row sub-soiling). In 2013, 2019, and 2022, the entire test area was planted with peanut. In 2019 and 2022, peanut was planted without or with fluopyram applied in the seed furrow at planting. Decreasing the number of years between peanut planting resulted in lower peanut yields compared with fewer years of peanut planting in the rotation sequence. Continuous conventional tillage and strip tillage resulted in similar peanut yields at one location, while the yield was lower at a second location when peanut was planted in continuous strip tillage. Fluopyram did not affect peanut yield regardless of previous crop rotation sequence, the number of years separating peanut plantings, or the tillage system. However, minor differences in the populations of plant-parasitic nematodes in soil were noted when comparing fluopyram treatment. The results from these experiments indicate that while fluopyram can reduce the populations of some plant-parasitic nematodes in soil, the magnitude of reduction does not translate into increases in peanut yield. [ABSTRACT FROM AUTHOR]

Published

2024

21. Long-Term Effects of Different Tillage Systems and Their Impact on Soil Properties and Crop Yields.

Author

Steponavičienė, Vaida, Žiūraitis, Giedrius, Rudinskienė, Aušra, Jackevičienė, Karolina, and Bogužas, Vaclovas

Subjects

*TILLAGE, *CROP yields, *SUSTAINABLE agriculture, *AGRICULTURE, *AGRICULTURAL productivity, *SOILS

Abstract

The scientific aim of this article is to elucidate the effects of various tillage practices on soil properties and crop yields; additionally, it seeks to highlight the significant potential of specific farming systems in enhancing soil organic carbon, thereby positively influencing CO2 emissions from soil. In the experimental station of Vytautas Magnus University, Kaunas District, Lithuania (54°52′50″ N and 23°49′41″ E), a long-term field experiment has been established since 1999, and studies have been conducted since 2003. The soil of the experimental site is classified as Epieutric Endocalcaric Planosol (Endoclayic, Episiltic, Aric, Drainic, Endoraptic, Uterquic), according to the World Reference Base (WRB, 2022). Two primary factors were assessed. Factor A incorporated practices of straw removal versus straw chopping and spreading, while Factor B evaluated a spectrum of tillage techniques: conventional deep plowing and two no-tillage practices, one of which involved cover crops. The findings from this long-term study highlight a significant increase in SOC stocks across all treatments over the 20-year period. Notably, the no-tillage practices, coupled with the spreading of chopped straw, demonstrated the most substantial growth in SOC levels, particularly in the top 0–10 cm soil layer. This trend underscores the effectiveness of minimizing soil disturbance and incorporating organic matter in boosting SOC stocks. The different tillage systems influence CO2 emissions from soil. Initially, direct sowing into uncultivated land, both with and without cover crops, led to a notable reduction in CO2 emissions compared to conventional plowing. However, this effect was found to vary over the growth cycle of the plant, highlighting the dynamic interaction between tillage practices, soil properties, and environmental conditions. Collaborative research efforts that involve farmers, scientists, policymakers, and other stakeholders are crucial for the development of holistic, practical, scalable solutions that enhance the sustainability and productivity of agricultural systems. This study contributes to the growing body of knowledge on sustainable agriculture, providing insights for farmers, agronomists, and policymakers in their quest to promote environmentally sound and productive agricultural systems. [ABSTRACT FROM AUTHOR]

Published

2024

22. Response of Triticum Vulgare Growth and Nitrogen Allocation to Irrigation Methods and Regimes under Subsoiling Tillage.

Author

Huang, Chao, Liu, Xuchen, Gao, Yang, Chen, Haiqing, Ma, Shoutian, Qin, Anzhen, Zhang, Yingying, Gao, Zile, Song, Yan, Sun, Jinkai, and Liu, Zhandong

Subjects

*WHEAT, *IRRIGATION, *MICROIRRIGATION, *WATER levels, *SOIL ripping, *WINTER wheat, *TILLAGE

Abstract

Subsoiling tillage breaks up the shallow plow layer and thickened plow pan resulting from prolonged crop rotation, thus enhancing the soil tillage layer environment and fostering crop growth. However, these changes in tillage practices are not accompanied by corresponding advancements in irrigation technology. Therefore, this study compared drip irrigation (DI) and micro-sprinkler irrigation (MS) with three watering levels (H, M, L) based on soil water content (70%, 60%, 50% of field capacity) against traditional surface irrigation (CK, 70%FC) to find the most suitable irrigation approach for subsoiling wheat fields. This study found that adjusting irrigation methods and regimes significantly impacted wheat growth and yield. Drip irrigation boosts winter wheat grain yield, harvest index, biomass transfer amount, biomass transfer rate, nitrogen accumulation, nitrogen use efficiency, and nitrogen harvest index significantly compared to surface and micro-sprinkler methods. Drip irrigation, notably the DI-M treatment, significantly enhances winter wheat grain yield by 28.7% compared to CK. Drip irrigation produced optimal results when soil water levels decreased to 60% of the field capacity. This suggests adopting a combination of DI, with irrigation initiated at 60% of field capacity, for enhanced wheat production and resource efficiency. [ABSTRACT FROM AUTHOR]

Published

2024

23. Sunflower Growth and Grain Yield under Different Tillage Systems and Sources of Organic Manure on Contrasting Soil Types in Limpopo Province of South Africa.

Author

Mokgolo, Matome J., Zerizghy, Mussie G., and Mzezewa, Jestinos

Subjects

*SOIL classification, *GRAIN yields, *MANURES, *POULTRY manure, *LEAF area index, *CATTLE manure, *TILLAGE

Abstract

A field study was conducted to assess the effect of tillage systems (TSs) and manure rates (MRs) on sunflower growth and yield at the University of Limpopo Experimental Farm (Syferkuil) which is on sandy loam soils and University of Venda Experimental Farm (UNIVEN) clayey soils, both located in Limpopo Province of South Africa for 2021/2022 and 2022/2023 cropping seasons. The experimental design was a split plot with three replications. The main plot was the tillage treatments: conventional (CON) and in-field rainwater harvesting (IRWH), while the subplots were the manure treatments: viz. poultry and cattle manures at rates of 20 and 35 t ha−10, plus a control (no manure application). The IRWH is a tillage technique that collects rainwater on a 2 m wide runoff strip into the 1 m wide basin where it infiltrates deep into the soil beyond the evaporation zone but is available for crop use. The results revealed that at Syferkuil IRWH had a significant increase (p < 0.05) on grain yield, head diameter, head dry matter and aboveground dry matter yield in both cropping seasons, whereas at UNIVEN, the significant increase was obtained on grain yield, head diameter, aboveground dry matter, plant height and stem girth during both cropping seasons. The effect of manure rate significantly increased with the application rate, with poultry manure at the highest rate of 35 t ha−1 significantly recording high mean values of grain yield, head diameter, head dry matter, aboveground dry matter, plant height and stem girth at both sites during the two cropping seasons. The increase in leaf area index and 100 seed weight by IRWH and manure rate application varied across the growing stages and cropping seasons with no consistent trend. At Syferkuil, TS and MR interaction was significant on head diameter and on aboveground dry matter at flowering stage in the first cropping season, whereas at UNIVEN, it was significant on head diameter in the first cropping season. Therefore, these results suggest that IRWH combined with poultry manure (35 t ha−1) can be adopted to improve sunflower crop yield under similar management and environmental conditions. In the absence of poultry manure, farmers may opt to use cattle manure at a rate of 35 t ha−1 for better improved yield. [ABSTRACT FROM AUTHOR]

Published

2024

24. Changes in Microbial Community and Activity of Chernozem Soil under Different Management Systems in a Long-Term Field Experiment in Hungary.

Author

Balla Kovács, Andrea, Juhász, Evelin Kármen, Béni, Áron, Kincses, Ida, Tállai, Magdolna, Sándor, Zsolt, Kátai, János, Rátonyi, Tamás, and Kremper, Rita

Subjects

*CHERNOZEM soils, *PLOWING (Tillage), *FIELD research, *MICROBIAL communities, *TILLAGE

Abstract

The effects of intensive and reduced tillage, fertilization, and irrigation on soil chemical and microbiological parameters were studied in a long-term field experiment in Hungary. The treatments were plowing tillage, ripper tillage, strip tillage; control (without fertilization), NPK fertilization (N: 160 kg/ha; P: 26 kg/ha; K: 74 kg/ha); and non-irrigation and irrigation. Soil samples were collected through maize monoculture in the fall of 2021 in the 30th year of the experiment. The soil organic carbon, total nitrogen, soil microbial biomass (based on PLFA analysis), and soil enzyme activity were observed to be significantly high in the strip tillage plots, but were lower in the ripper tillage plots, and even lower in the plowing tillage plots. The fungal, arbuscular mycorrhiza fungal, and bacterial biomasses were significantly higher in the strip tillage and ripper tillage plots compared to the plowing tillage plots. The strip tillage treatment was found to be the most favorable cultivation method for improving the microbial biomass and activity of Chernozem soil, followed by the ripper tillage and plowing tillage treatments. The long-term use of chemical fertilizers greatly reduced the soil microbial biomass and negatively impacted the soil microbial community, leading to a decrease in fungi and Gram-negative bacteria. The ratio of cyclopropyl PLFA precursors to cyclopropyl PLFAs, as a "stress factor", indicated the most stressful bacterial environment was that found in the fertilized, non-irrigated plowed soil. [ABSTRACT FROM AUTHOR]

Published

2024

25. Reduced Tillage, Application of Straw and Effective Microorganisms as Factors of Sustainable Agrotechnology in Winter Wheat Monoculture.

Author

Kotwica, Karol, Gałęzewski, Lech, Wilczewski, Edward, and Kubiak, Waldemar

Subjects

*WINTER wheat, *PLOWING (Tillage), *TILLAGE, *STRAW, *PLANT residues, *SUSTAINABLE agriculture, *MICROORGANISMS

Abstract

In the aspect of the sustainable development of agrocenoses, the proper management of plant residues remaining after harvesting, the appropriate selection of tillage and maintaining high microbiological activity of soil are particularly important. Therefore, a four-year two-factor experiment with winter wheat monoculture was conducted. The objective of this study was to compare the effects of 18 cultivation technologies variants on weed infestation and yield structure of winter wheat grown in a 4-year monoculture. Six methods of tillage and management of residues after harvesting forecrops (first factor) and the use of microbiological preparations (second factor) were tested. The experiment showed that simplified tillage (elimination of plowing) had an adverse effect on the weed infestation of the field and most of the tested plant characteristics, including the yield. In terms of yield, the best solution was to leave the forecrop straw mulch on the field surface until plowing was carried out before sowing, regardless of the use of microbiological preparations. The application of preparations containing effective microorganisms brought beneficial effects only when the shredded straw of the forecrop was mixed with the soil using a grubber. [ABSTRACT FROM AUTHOR]

Published

2024

26. Spatial Distribution of Soil Macroelements, Their Uptake by Plants, and Green Pea Yield under Strip-Till Technology.

Author

Szczepanek, Małgorzata, Piekarczyk, Mariusz, and Błaszczyk, Karolina

Subjects

*TILLAGE, *SUSTAINABLE agriculture, *SOILS, *NUTRIENT uptake, *CONSERVATION tillage, *GROWING season

Abstract

Using conservation tillage to grow crops that enhance soil quality, such as legumes, seems to be one of the best solutions for sustainable agriculture. The field study was conducted to identify the effect of soil cultivation technology and fertilization, via strip-tilling (reduced) vs. plowing (conventional), on the availability and uptake of NPK and Mg, as well as on the growth of shoots and roots and yield of green peas (Pisum sativum L.). The research was carried out in central Poland (53°05′16.8″ N, 19°06′14.4″ E) over two growing seasons of green peas in 2016 and 2017. Our study has shown that the spatial distribution of macroelements in the soil is influenced by the tillage method. The availability and nutrient uptake by green peas, their growth parameters, and yield were also influenced by the tillage system. However, the effect was observed mainly in the first year of the study, which had less precipitation and higher temperatures. In general, in our study, the strip-till has a positive impact on the nutrient uptake by plants, contributing to longer shoots and roots and higher biomass accumulation, especially in the first part of the growing season. In 2016, with less rainfall, green peas under strip-tilling produced more pods per plant and the yield was higher than under plowing (by 13.8%). In 2017, with higher precipitation, an increase in yield under strip-tilling compared to plowing was also observed (by 9.1%), but this difference was not statistically significant. To sum up, strip-tillage seems to have a positive impact on the spatial distribution of macroelements, growth parameters, and yield of green peas, and can be recommended as a technology for the sustainable production of this crop. [ABSTRACT FROM AUTHOR]

Published

2024

27. Tillage Long-Term Effects on Soil Organic Matter Humification and Humic Acids Structural Changes in Regosol Profiles Typical of an Arid Region.

Author

Ben Mahmoud, Imen, Mbarek, Hadda Ben, Sánchez-Bellón, Ángel, Medhioub, Mounir, Moussa, Mohamed, Rigane, Hafedh, and Gargouri, Kamel

Subjects

*HUMIFICATION, *HUMIC acid, *ARID regions, *TILLAGE, *ORGANIC compounds, *NO-tillage, *MOLECULAR structure, *FLUORESCENCE spectroscopy

Abstract

This study aims to assess soil organic matter (SOM) humification and changes in molecular structures of humic acids (HAs) induced by long term management practices over soil profile under arid climate in south-eastern Tunisia. Two experimental fields were studied: the first was cultivated with olive tree and tilled for long term (CT) while the second was uncultivated without any management practices and with native vegetation (NC). Soil samples were collected at different depths from (CT) and (NC) profiles to determine chemical properties. Humic acids were isolated and studied by measuring UV-visible ratios (E465/665, E280/664 and E472/664) and fluorescence spectroscopy analysis. Results showed that long-term tillage practices reduced the SOM amount, aromatic condensation, molecular size and humification degree in surface layer of CT confirmed by the decrease in the fluorescence emission areas and UV-visible ratios. Inversely, in deep layers, results showed a greatly humified organic matter and aromatic structures condensation in CT. Long-term tillage leads to a significant decrease in aromatic condensation and OM humification in surface layers. Unmanaged soils provided a favorable environment to maintain OM chemical structures and restore soil quality under long-term management practices. [ABSTRACT FROM AUTHOR]

Published

2024

28. Automated Crop Residue Estimation via Unsupervised Techniques Using High-Resolution UAS RGB Imagery.

Author

Azimi, Fatemeh and Jung, Jinha

Subjects

*TILLAGE, *CROP residues, *CORN residues, *PLOWING (Tillage), *AGRICULTURE, *PRINCIPAL components analysis

Abstract

Crop Residue Cover (CRC) is crucial for enhancing soil quality and mitigating erosion in agricultural fields. Accurately estimating CRC in near real-time presents challenges due to the limitations of traditional and remote sensing methods. This study addresses the challenge of accurately estimating CRC using unsupervised algorithms on high-resolution Unmanned Aerial System (UAS) imagery. We employ two methods to perform CRC estimation: (1) K-means unsupervised algorithm and (2) Principal Component Analysis (PCA) along with the Otsu thresholding technique. The advantages of these methods lie in their independence from human intervention for any supervised training stage. Additionally, these methods are rapid and suitable for near real-time estimation of CRC as a decision-making support in agricultural management. Our analysis reveals that the K-means method, with an R 2 = 0.79 , achieves superior accuracy in CRC estimation over the PCA-Otsu method with an R 2 = 0.46 . The accuracy of CRC estimation for both corn and soybean crops is significantly higher in winter than in spring, attributable to the more weathered state of crop residue. Furthermore, CRC estimations in corn fields exhibit a stronger correlation, likely due to the larger size of corn residue which enhances detectability in images. Nevertheless, the variance in CRC estimation accuracy between corn and soybean fields is minimal. Furthermore, CRC estimation achieves the highest correlation in no-till fields, while the lowest correlation is observed in conventionally tilled fields, a difference likely due to the soil disturbance during plowing in conventional tillage practices. [ABSTRACT FROM AUTHOR]

Published

2024

29. Mitigation of radium-226 in agricultural soils and influence of soil-to-plant transfer factor and physical–chemical properties of soil.

Author

Nguyen, Van Thang, Huynh, Thi Yen Hong, Truong, Huu Ngan Thy, Huynh, Nguyen Phong Thu, and Le, Cong Hao

Subjects

*AGRICULTURE, *SOIL infiltration, *TILLAGE, *SOILS, *SOIL moisture

Abstract

The mitigation rate (Rj) was evaluated for Ra-226 in cultivated soil in twelve fields in Vietnam. For the collected soils, the Rj values were between 0.1 and 0.58 Bq kg−2 y−1 with an average value of 0.28 Bq kg−2 y−1. The influence of the physicochemical properties of soil and cultivation characteristics on the rate of Ra-226 was considered. A strong correlation was found between the soil-to-plant factors (TF) and the uptake rates of plants (Ru) (Pearson coefficient |p|> 0.6). The leaching rate (Rℓ) in the surface soil correlates with some physical–chemical properties of soil such as the partition coefficient of Ra-226 in soil (Kd), infiltration rate of water (Rw), and activity concentration of Ra-226 in soil water (Cw) (|p|> 0.6). [ABSTRACT FROM AUTHOR]

Published

2024

30. Effects of transitioning from conventional to organic farming on soil organic carbon and microbial community: a comparison of long-term non-inversion minimum tillage and conventional tillage.

Author

Mihelič, Rok, Pintarič, Sara, Eler, Klemen, and Suhadolc, Marjetka

Subjects

*ORGANIC farming, *TILLAGE, *MICROBIAL communities, *AGRICULTURAL conservation, *CONSERVATION tillage, *WEED competition, *SOIL microbial ecology

Abstract

The combination of conservation tillage (non-inversion and no-till) with organic farming is rare due to weed problems. However, both practices have the potential to improve soil quality and increase soil organic C (SOC). This study investigated the changes in SOC, microbial biomass, and microbial composition during the transition from conventional to organic farming (from 2014 to 2020) in a long-term tillage trial established in 1999. Non-inversion minimum tillage to a depth of 10 cm (MT) resulted in SOC stratification, whilst conventional soil tillage with 25-cm-deep mouldboard ploughing (CT) maintained an even SOC distribution in the plough layer. After 12 years of contrasting tillage in 2011, the uppermost soil layer under MT had a 10% higher SOC content (1.6% w/w) than CT (1.45% w/w). This difference became even more pronounced after introducing organic farming in 2014. By the fall of 2020, the SOC content under MT increased to 1.94%, whilst it decreased slightly to 1.36% under CT, resulting in a 43% difference between the two systems. Conversion to organic farming increased microbial biomass under both tillage systems, whilst SOC remained unchanged in CT. Abundances of total bacterial and Crenarchaeal 16S rRNA and fungal ITS genes indicated shifts in the microbial community in response to tillage and depth. Fungal communities under MT were more responsive to organic farming than bacterial communities. The improved soil quality observed under MT supports its adoption in both organic and conventional systems, but potentially large yield losses due to increased weed cover discourage farmers from combining MT and organic farming. [ABSTRACT FROM AUTHOR]

Published

2024

31. Influence of feral Raphanus sativus seed attributes and burial depth in seedling emergence dynamics.

Author

Vercellino, Román B., Hernández, Fernando, Pandolfo, Claudio, and Presotto, Alejandro

Subjects

*RADISHES, *SEEDS, *AGRICULTURE, *SUSTAINABLE development, *SEEDLINGS, *AUTUMN

Abstract

Understanding the emergence patterns of agricultural weeds is paramount for effective management practices. This study investigates the emergence dynamics of feral radish (Raphanus sativus L.), a widespread weed in the Americas, unravelling the intricate interplay of seed attributes—low or no dormancy, darkness requirement, and indehiscent siliques—on seedling emergence. To explore this, we (1) buried isolated seeds and intact siliques at six increasing depths (0–16 cm) under controlled conditions, and (2) evaluated seedling emergence from both isolated seeds and intact siliques placed on the soil surface and buried at 10 cm under field conditions over 3 years. Our findings reveal that seedlings emergence was about five‐fold higher from shallow‐buried than from surficial isolated seeds, and from isolated seeds than from seeds inside siliques, suggesting strong effects of burial depth and the pericarp. Even isolated seeds buried at 12 cm depth outperformed surface isolated seeds. The burial depth influenced emergence patterns; isolated seeds exhibited rapid emergence, with rates five times higher at 10 cm deep compared to those on the soil surface, showing no emergence after year 1. Conversely, the pericarp delayed and staggered seedlings emergence, contributing to the formation of a persistent seed bank for at least 3 years in both burial depths. Seedlings emergence from seeds inside siliques buried at 10 cm begins in year 1 and in those placed on the soil surface year 2, with emergence peaks predominantly in autumn. These findings enrich our understanding of feral radish seedling emergence, providing valuable insights for the development of sustainable and efficient management practices. [ABSTRACT FROM AUTHOR]

Published

2024

32. Modelling soil-rotor blade interaction of vertical axis rotary tiller using discrete element method (DEM).

Author

Patidar, Prakhar, Soni, Peeyush, Jain, Achala, and Mahore, Vijay

Subjects

*DISCRETE element method, *CULTIVATORS, *SUSTAINABILITY, *SOIL-structure interaction, *TILLAGE

Abstract

• Soil-rotor blade interaction of a rotary tiller is analyzed through their kinematics, and dynamics. • DEM is employed using the Hysteric Spring Contact Model and Linear Cohesion Model v2 to analyze soil-rotor blade interaction. • Altair® EDEM® is used to develop DEM model. • Effects of u/v ratio and operating depth are analyzed on draft and torque requirements of rotor blades. • Simulated and measured data show acceptable match; the model satisfactorily predicted rotary tiller performance. Vertical-axis rotary tillers are preferred over other soil-engaging tools for inter-culture operations due to their superiority in avoiding tillage pan formation, facilitating drainage, and operability at higher forward speeds. To optimize their design and operation, and to promote sustainable agricultural practices, a greater understanding of the kinematics, dynamics, and soil-structure interaction of vertical axis rotary tiller is required, along with the optimization of required energy. In this study, discrete element method (DEM) is used to analyse the interaction between soil and rotor blades, by incorporating the Hysteric Spring Contact Model along with linear cohesion model v2. Soil-rotor blade interaction DEM model is developed using Altair® EDEM® to analyse the effect of u/v ratio (2.13, 2.90, 3.70, and 4.44) and average operating depth (30 mm, 50 mm, and 70 mm) on draft and torque requirements for the rotor blade, as well as experimentally validating the simulation in a soil bin. In this study, lower u/v ratios in vertical axis rotary tillers demand higher torque for larger soil volumes. Additionally, torque rises with operating depth, owing to increased soil volume and strength. The simulated results closely followed the measured draft and torque for all combinations of u/v ratio and operating depth (R2 0.96 and 0.99). These findings indicate the DEM model as a dependable approach for modelling the performance of rotary tillers under different soil conditions. [ABSTRACT FROM AUTHOR]

Published

2024

33. Surface treatment of soil in nursery gardens for growing seedlings of main forest forming species.

Author

Tarasenko, B. F., Drobot, V. A., Brusentsov, A. S., Dzjasheev, А.-М. S., Tikhonov, E. А., Shcheblykin, P. N., and Orekhovskaya, A. A.

Subjects

*DRY farming, *SURFACE preparation, *SOIL science, *SOILS, *SOIL protection, *TILLAGE

Abstract

Key indicators of soil-cultivating tools - rate of production and fuel consumption. Current tillage processes are imperfect due to multi-operation, large range of machines. Problem's ecological component is related to soil cultivation quality, its compaction. Loosening low quality of soil structures of upper horizon and compaction cannot provide effective accumulation and soil moisture use. Thus, risky arid farming guaranteed results are limited. Market demand has significant impact on production, especially in agricultural and forestry sectors, so those crops are grown for which are in demand, which leads to agrotechnical recommendations violation, deterioration in soil fertile properties. In this aspect, preservation and restoration of soil seed layer fertility is issue that worries scientists and agricultural producers. Currently, to achieve this goal, various methods are used, based on use of chemical, biological preparations, mechanical and other means. In this work, we try to focus on reducing chemicals use by using new working bodies for mechanical action on soil, cultivating crops based on modern achievements in soil science, ecology and land cultivation, which help reduce erosion and deflation, preserve soil fertility and increase environmental safety and production efficiency, considering previously developed soil protection technologies for tillage, which requires creating new anti-erosion technical means. [ABSTRACT FROM AUTHOR]

Published

2024

34. Qualitative indicators of the work of the tillage plant during beet cultivation.

Author

Syromyatnikov, Yu. N., Ayugin, N. P., Kalimullin, M. N., Tikhonov, E. A., Ivanov, A. A., Orekhovskaya, A. A., and Parfenopulo, G. K.

Subjects

*TILLAGE, *CROP yields, *SUGAR beets, *SOIL moisture, *PLANT development, *PLANT-soil relationships, *BEETS

Abstract

As a result of tillage with a soil separation plant, the soil is stratified into four sublayers: seed, seed, sub-seed and sub-tillage. The relevance lies in the fact that tillage using a loosening and separating plant will allow improving the methods of pre-sowing tillage to improve its agrotechnical qualities, eliminating such technological operations as harrowing and cultivation, and preparing the soil for sowing. The use of an experimental leavening and separating plant for pre-sowing soil preparation when growing sugar beet compared to traditional tools by improving the quality of tillage allows you to get seedlings earlier by 3-4 days, ensure better moisture retention in the soil (by 3-4%), significantly reduce the contamination of crops and increase yields. Moreover, studies have shown that during the entire vegetative development of plants, the agrophysical parameters of the cultivated soil layer maintained relative stability. [ABSTRACT FROM AUTHOR]

Published

2024

35. Raising the efficiency of using tillage machines based on a semi-frame tractor.

Author

Surin, Roman, Shchitov, Sergey, Kuznetsov, Evgeny, and Evdokimov, Vyacheslav

Subjects

*TILLAGE, *SNOW cover, *AGRICULTURE, *CROWDSOURCING, *AUTUMN, *SOIL moisture

Abstract

When preparing the soil for sowing, an important agricultural operation is the harrowing and slotting of the soil. This agricultural technique is very important for areas where there is increased soil moisture during the harvesting period, since it is not always possible to prepare the soil for the future harvest in the autumn. In the Amur region, during the harvesting period, not only abundant precipitation is observed, but also such an important factor as the end of harvesting at low temperatures, and sometimes even under snow cover. All of the above factors leave their mark on the preparation of the soil for sowing. Given that harrows are not produced specifically for a particular region, they are structurally designed to use ballast in order to regulate the load on the working body, depending on the physical and mechanical properties of the soil. Also, one of the promising ways to solve the problem of increasing the required load on the working body is its automatic regulation when transferring the mass of the tractor to the harrow through the use of additional redistributing devices. The article presents the results of experimental studies on the use of heavy disc harrows with a device that allows you to adjust the load on the working body through the use of part of the mass of the energy source. [ABSTRACT FROM AUTHOR]

Published

2024

36. Soil classification using machine learning.

Author

Philip, Alaina Antony, Reddy, Nerusupalli Dinesh Kumar, and Gupta, A. K.

Subjects

*SOIL classification, *MACHINE learning, *TILLAGE, *AGRICULTURAL productivity, *IMAGE processing

Abstract

A topic that evokes a large base for assorted studies, across numerous countries is soil classification. Recently, the world recorded an exorbitant rise in human population, the denouement is a higher demand for food and shelter. Both these factors directly demand exceptional study in geo technology, if not, a more reliable and faster method to do so. Conventional strategies taken by farmers are insufficient to meet the skyrocketing demands, and as a result, they must impede soil cultivation. This leads to the requirement to remain cognizant of the optimum soil type for a certain crop to maximize agricultural production. Several laboratory and field methods for classifying soil exist, however, these have constraints namely time and labour sine qua non. A need for a software-based soil categorization modus operandi that will assist humankind from a range of engineers to farmers, in reducing the time deviation is sought. This paper discusses apropos software, that allows soil classification to be achieved more efficiently. The functioning includes image processing and Computer vision-based soil classification methodologies, embodying the customary image assessing algorithms based on parameters, namely texture, colour, and particle size. [ABSTRACT FROM AUTHOR]

Published

2024

37. The influence of the kinematic mode on the performance of the rotor.

Author

Akhmetov, A. A., Allanazarov, M. A., Rakhimboyeva, D. S., and Rajabov, I. R.

Subjects

*ROTORS, *TILLAGE, *SCALLOPS, *UNIFORMITY, *MACHINERY, *KNIVES

Abstract

The article presents the results of research to substantiate the kinematic mode of operation of the rotor of a combined machine for pre-sowing tillage. The design feature of the rotor and the analytical dependence are given, which allows determining the technological mode of operation of the rotor depending on the design parameters and the speed mode of operation of the latter. Unlike the serial ones, this rotor is equipped with knives that performs tillage with equidistant displacement of the top of the deformation zone of each subsequent cycle from the previous one in the direction of the width of the machine, thereby ensuring uniformity of the bottom of the treatment by eliminating the formation of undesirable scallops. The conducted studies also showed that with the number of knives fixed on one plane of the rotor disk Zk = 3, and the permissible initial requirements of the bottom of the processing, the rational value of the kinematic mode is = 4.5, in which the feed to the knife does not exceed 8.4 cm and the repeated impact of the rotor knives on the soil is excluded. [ABSTRACT FROM AUTHOR]

Published

2024

38. Enhancing moldboard plough performance in Al-Musaib: Investigating the effects of tillage speed, tire pressure, traction force, and bulk density on slippage percentage and field efficiency.

Author

Al-Hamadani, Haider, Mahmood, Haider F., and Naser, Kadhim Fadhil

Subjects

*TILLAGE, *SUSTAINABLE agriculture, *SUSTAINABILITY, *SPEED, *PERFORMANCE of tires, *TIRES, *TWO-way analysis of variance, *AGRICULTURE

Abstract

This study aims to investigate the impact of tillage speed, tire pressure, traction force, and bulk density on the functionality of a local Moldboard Plough in Al-Musaib, Iraq. A 4WD MF 470 Xtras tractor was used to evaluate the plough's performance under varying tillage speeds and tire pressure levels. The two-way ANOVA with three replication was conducted to examine the effects of these factors on traction force, bulk density, slippage percentage and field efficiency, all crucial mechanical factors that influence Moldboard Plough functionality. The results revealed significant effects of tillage speed and tire pressure on various mechanical factors influencing Moldboard Plough functionality. At a tillage speed of 8 km/h, the traction force increased by an average of 15% compared to 4 km/h. Similarly, adjusting the tire pressure from 20 Par to 30 Par resulted in a decrease in bulk density from 1.6 g/cm³ to 1.3 g/cm³.The study also found that specific combinations of tillage speed and tire pressure led to improved performance. The combination of 6 km/h tillage speed and 30 Par tire pressure resulted in a slippage ratio of only 8%, indicating better field efficiency compared to other combinations. These quantitative findings emphasize the importance of optimizing tillage speed, tire pressure, and other mechanical factors to enhance the functionality of Moldboard Ploughs in Al-Musaib. Agricultural practitioners can utilize these results to make informed decisions and implement more efficient and sustainable farming practices. Furthermore, these findings highlight the need for considering specific combinations of tillage speed and tire pressure in the design and development of future Moldboard Ploughs tailored to the region's conditions. [ABSTRACT FROM AUTHOR]

Published

2024

39. Optimizing ballast mass for improved traction force in moldboard ploughing at Al-Musayib area.

Author

Al-Bakri, Ammar Adil, Mahmood, Haider F., and Subhi, Kussay Ahmed

Subjects

*MULTIPLE regression analysis, *AGRICULTURE, *TILLAGE

Abstract

This study investigates the impact of ballast mass on traction force during moldboard ploughing at Al-Musaib area and determines the optimal ballast mass for improved traction force. Data from 27 field tests were analyzed using multiple regression analysis, considering traction force, ballast mass, tillage depth, and tillage speed. The results indicate that ballast mass, tillage depth, and tillage speed are significant predictors of traction force, with an adjusted R-squared value of 0.9972. The optimal ballast mass for maximum traction force is estimated to be between 300.9-343.5 kg. These findings demonstrate the significant improvement in traction force achieved by optimizing ballast mass during moldboard ploughing at Al-Musaib area. The results can guide farmers and agricultural practitioners in optimizing their ploughing practices and enhancing yields. Further research could explore the effects of ballast mass on other ploughing methods and different soil conditions. [ABSTRACT FROM AUTHOR]

Published

2024

40. Soil tillage managements and planting systems to improve rice yield and vertisols properties in rainfed agroecosystem.

Author

Suriadi, Ahmad, Jauhari, Sodiq, Hadiawati, Lia, Nazam, Moh., and Sukmawati

Subjects

*SOIL management, *TILLAGE, *NO-tillage, *VERTISOLS, *RICE, *SOIL degradation, *IRRIGATION water

Abstract

Improper soil tillage management often leads to soil degradation that eventually decreases rice productivity. The aim of the research was to identify the best soil tillage management and planting systems to improve rice productivity and vertisol properties in a rainfed agroecosystem. The field experiment was laid out as a split plot design with two planting systems of direct seeding (DS) and transplanted seeding (TS) treatments as the main plot and three soil managements treatment, i.e., no tillage (NT), minimum tillage (MT), and conventional tillage (CT) as sub-plots and four replications. The results showed that vertisol properties such as bulk density, porosity, and permeability tend to be better in NT and MT than in CT, although these were not significantly different. However, rice plants were harvested about 10 days earlier in the DS treatment than in the TS treatment without significantly reducing yield. The DS technology has been able to streamline the planting time earlier than the usual method or the farmer's method (TS) with NT or MT soil management. The agronomic parameters of rice plants did not significantly differ either in combination treatments or in single treatment except for dry biomass weight. The highest dry biomass was obtained in the conventional tillage treatment and was significantly different from the treatment with no tillage but not significantly different from the minimum tillage. The cultivation of no tillage combined with direct seed planting was able to produce the same rice yield as transplanted seed with conventional tillage. The existence of earlier planting time will provide an opportunity to utilize irrigation water resources more efficiently for the next season of planting time. [ABSTRACT FROM AUTHOR]

Published

2024

41. Crawler tractor performance test for soil cultivation in the tidal swampland of South Kalimantan.

Author

Widodo, Puji, Hidayat, Muhammad, Nurhasanah, Ana, Asari, Ahmad, Harsono, and Budiman, D. A.

Subjects

*CRAWLER tractors, *TILLAGE, *SOIL testing, *ARID regions, *SWAMPS, *SOYBEAN

Abstract

Increasing national food, especially rice, corn, and soybeans, in 2025 requires 4.7 million hectares of new land. Extensification and intensification of tidal swampland are one of the strategic efforts to meet these needs. Soil cultivation in tidal swampland is generally done manually or with two-wheel tractors and four-wheel tractors, although in practice there are still many obstacles in the form of limited manpower, sinking two-wheeled or four-wheeled tractors. The use of a crawler tractor with a rotary implementation is expected to be able to optimize land cultivation in tidal swamp land. The purpose of this study was to test the performance of a crawler tractor with a rotary implement for tillage in tidal swampland in South Kalimantan. Method Performance test for crawler tractor at tidal swampland used Indonesian National Standart (SNI Roda Krapyak). Observations on test parameters include working width, depth, speed, field capacity and soil tillage efficiency. The results of the crawler tractor performance test are as follows: at dry land consisting of : cone indeks 1,0-4,3 kg/cm2, the width of theoretical working 1800 mmm, the actual working width is 1729 cm, the depth tillage was 154,9 mm, the actual working speed is 4,18 km/hour, the field capacity is 2.61 hours/ha solar 6,86 liter/hour and the tillage efficiency is 52.92%. Performance test at the wet tidal swampland was as follows: cone indeks 0,76-3,7 kg/cm2, the width of theoretical working 1800 mmm, the actual working width is 1694 cm, the depth tillage was 154,1 mm, the actual working speed is 4,05 km/hour, the field capacity is 2.81 hours/ha solar consumption 7,89 liter/hour and the tillage efficiency is 51.12%. [ABSTRACT FROM AUTHOR]

Published

2024

42. Maintaining soil properties and increasing cabbage yields through minimal tillage and legume cover crops.

Author

Prathama, Mathias, Rosliani, Rini, Handayani, Tri, Yufdy, M. Prama, Sulastrini, Ineu, and Musaddad, Darkam

Subjects

*COVER crops, *LEGUME farming, *TILLAGE, *CABBAGE, *CROP management, *GREEN bean, *AGRICULTURE, *SOIL management

Abstract

Continuous cultivation of vegetable crops such as cabbage throughout the year causes a decrease in crop and soil productivity. There it is necessary to develop agricultural practices that can maintain sustainable production while reducing land degradation. The aim of this experiment was to study soil fertility and cabbage yields influenced by tillage methods and types of legumes as cover crops. The research was conducted in Pangalengan highlands, West Java, Indonesia. A split-plot design with four replications was applied. The main plot consisted of two tillage methods, namely minimum tillage (strip) and conventional tillage. The subplot consisted of legumes cultivated as cover crops on cabbage beds, namely string beans, red beans, peanuts, and plastic mulch as controls. The results indicated that the application of minimum tillage was not significantly different from conventional tillage in the chemical and physical properties of the soil, growth, and yield of cabbage. Therefore, minimal tillage can be used for the cultivation of cabbage in the highlands. Meanwhile, legume cover crops produced higher residual nutrients (organic C and soil P), soil microbial population, growth, and yield of cabbage compared to plastic mulch application, although the physical properties of the soil were not significantly different. This indicated that legumes planted among cabbage cultivations can increase soil fertility and cabbage yields. Then minimum tillage and cultivation of legumes as intercropping crops can be proposed as efficient methods of crop and soil management to maintain crop and land productivity in cabbage cultivation in the tropic highlands. [ABSTRACT FROM AUTHOR]

Published

2024

43. Alternative methods to combat herbicide resistance.

Author

Kriel, Glenneis

Subjects

*WEEDS, *HERBICIDE resistance, *HERBICIDES, *TILLAGE, *CROPS, *SEED harvesting, *BOTANY, *ANIMAL feeds

Abstract

The article discusses herbicide resistance in Australia, emphasizing its escalation due to reduced herbicide options, threatening food security. Topics include the development of non-chemical weed control strategies like Harvest Weed Seed Control (HWSC) systems, strategic tillage, and targeted herbicide application to combat resistance effectively.

Published

2024

44. Comparison of Land Suitability Methods for Estimating Quantity of Maize Yield in Calcareous Soils.

Author

Azadi, Abolfazl, Eskandari, Mahnaz, and Navidi, Mir Naser

Subjects

*CALCAREOUS soils, *CORN, *FARMS, *TILLAGE, *LAND degradation

Abstract

The modeling and assessment of land suitability is a prerequisite for land development and is one of the necessary needs to prevent land degradation. Maize is considered to be the most important crop, covering significant areas of agricultural lands in widely different regions across the world. However, not all available lands are equally suitable for maize cultivation. The main objective of this study was focused on identifying the potentials as well as the limitations of studied calcareous soils for maize cultivation in north Khuzestan province, Iran. Furthermore, some parametric models and multi-criteria land suitability evaluation methods for physical, chemical, fertility, and climatic factors (MC-LSE) were compared in estimating the maize yield. The required samples were taken from 23 land units by excavating control pedons. The necessary physicochemical parameters were then measured in the laboratory. The land indices were calculated by using different methods. The maize potential production of the investigated area was then obtained based on the climatic conditions. Finally, using land indices and the potential production, the estimated yield for each land unit was calculated and compared with the actual yield data. The obtained results indicated that the main limiting factors for maize yield in the region are high soil CaCO3 content, high salinity, high alkalinity and low organic matter. A comparison of predicted and actual yield indicated that the corrected square root method is accurate enough to assess land suitability and to estimate the maize yield with a high coefficient of determination (0.91) and a low RMSE value. [ABSTRACT FROM AUTHOR]

Published

2024

45. Chapter Three - Impact of agronomic management on the soil microbiome: A southern Australian dryland broadacre perspective.

Author

Shi, Andong, Cavagnaro, Timothy R., Sumby, Krista M., McDonald, Glenn, Denton, Matthew D., Roy, Stuart J., and Schilling, Rhiannon K.

Subjects

*SOIL management, *SUSTAINABLE agriculture, *DRY farming, *AGRICULTURAL technology, *CLIMATE extremes, *TILLAGE

Abstract

To maintain sustainable broadacre farming in the future, a better understanding of soil microbiome functions and processes associated with adapting agronomic management practices will be key. This is primarily due to the irreplaceable roles of the soil microbiome in soil and plant interactions, human health and ecosystem functions and stability. We approached this challenge by reviewing how different land management practices influence soil microbial communities. The important role that the soil microbiome plays in cropping systems is analyzed in the context of an overview of changes in land management over the past two decades using southern Australian dryland farming as a case study. Many major changes in management have occurred in this system during this time, including (i) reduction in tillage, with a corresponding increase in direct drilling and stubble retention; (ii) inclusion of oilseeds and pulses in cereal-dominated rotation systems; (iii) decrease in the pasture-dominated grain production systems; (iv) increased use of agrochemicals; (v) different soil amelioration applications and (vi) development of innovative agricultural technology. We review the overarching role of climate extremes in impacting agronomic management practices in southern Australian farming systems. In all, we demonstrate the complex interplay between land management changes and the activity, diversity and functions of the soil microbiome, with reference to changes in agronomic management practices. [ABSTRACT FROM AUTHOR]

Published

2024

46. Improvement in the quality and productivity of Codonopsis pilosula seedlings by dazomet soil fumigation.

Author

Wang, Hongyan, Chen, Yuan, Guo, Fengxia, Dong, Pengbin, Liang, Wei, and Cheng, Jiali

Subjects

*SOIL fumigation, *FUMIGATION, *ROOT rots, *LIPID peroxidation (Biology), *SEEDLINGS, *TILLAGE, *MICROBIAL enzymes

Abstract

Dazomet is a dry powder formulation that releases toxic gas containing methyl isothiocyanate, which controls soil-borne pests and weeds, improving crop yields when applied to moist soils. To explore the efficacy of dazomet fumigation in the cultivation of the perennial herb Codonopsis pilosula, four typical cultivars (G1, G2, W1 and TCK) in Gansu Province were selected for seedling cultivation after soil fumigation (F) by dazomet, and non-fumigated soil was used as a control (CK). The experiments took 2 years to complete. The functional diversity of the soil enzymes and microorganisms, seedling emergence and physiological characteristics, and the quality and yield of Codonopsis seedlings and Radix were assessed. The results showed that the seed emergence rate, seedling re-green rate and several antioxidant enzymatic activities improved in the treatments involving soil fumigation with dazomet, and membrane lipid peroxidation in the seedlings decreased. On average, compared with those of the respective controls, the root viability and yield of the seedlings of the tested cultivars also increased by 34.87% and 42.4%, respectively, and the incidence of root rot in the seedlings was reduced by 83.9%, compared with their respective controls. After harvest, the yield increased by 23.9%, the incidence of root rot decreased by 61.3%, increase in yield and a 61.3% reduction in incidence, and the medicinal materials were determined to be safe and residue-free. The effects of fumigation were cultivar-specific and were especially prominent in G2. Therefore, soil fumigation with dazomet could improve the quality and productivity of Codonopsis pilosula seedlings. Taken together, these findings suggest that when herbs are bred by seedling transplantation, especially cultivars of good quality but poor resistance or species with rare germplasm resources, soil fumigation provides a way to improve cultivation effectiveness and, more importantly, ensures the probability of successfully breeding the species. [ABSTRACT FROM AUTHOR]

Published

2024

47. Effect of tillage methods and seeding by a bent leg grain drill on wheat yield in rainfed conditions.

Author

Solhjou, Aliakbar, Khorami, Shokoofeh Sarikhani, and Alavimanesh, Sayed Mansor

Subjects

*TILLAGE, *CONSERVATION tillage, *DRILLS (Planting machinery), *SOIL conservation, *WHEAT seeds, *WHEAT, *SOIL drying, *SOIL density, *GRAIN

Abstract

The factors influencing on seed germination and wheat yield are such as the optimum use of tillage and seeding methods. This study was a randomized complete block experimental design with four treatments and four replications to determine the suitable tillage method for a grain drill with bent leg opener (bent leg grain drill) and also determine the effect of these implements on soil moisture conservation and rainfed wheat yield in dry soil conditions. Treatments were seeding wheat by a bent leg grain drill in four tillage application of direct seeding (no-tillage), bent leg tillage (reduced tillage), bent leg tillage + disc (reduced tillage), and chisel plough + disc (conventional tillage). Results indicated that tillage methods and seeding wheat by the bent leg grain drill affected residue remained on the soil surface, soil bulk density, soil moisture, seedling emergence percent and wheat yield. Reduce tillage by the bent leg tillage implement and seeding by the bent leg grain drill increased residue remained on the soil surface (31%), seedling emergence (26%), soil moisture conservation before harvesting (22.9%), and wheat yield (19.8%) compared to the conventional tillage. The bent leg tillage provides a proper seedbed for seeding wheat with less passes of tractor in dry soil conditions. The results show that the technology of bent leg tillage and bent leg grain drill has the potential to increase soil moisture conservation and wheat yield in rainfed conditions. [ABSTRACT FROM AUTHOR]

Published

2024

48. Prediction of draft force for Ard plows using dimensional analysis in silt loam soil.

Author

Thomas, G., Teshome, Y., and Amana, W.

Subjects

*SILT loam, *LOAM soils, *DIMENSIONAL analysis, *SOIL classification, *TILLAGE

Abstract

The proper amount of draft force required to till the soil is not coincide with the power applied in the field area during tillage of the soil. There is a need for investigation to predict the draft force of ard plow to improve our understanding of selecting appropriate input parameters for designing tools, which will help improve the allocation of the right prime power for a particular soil type. Otherwise, an excess load under load is applied and causes fatigue and inconvenience for both small-scale tools and operators. The aim of this research is to determine the draft force of Ard plough in silt loam soil. Laboratory and field tests were taken to measure actual draft force which was utilized as input for draft prediction. PI-Buckingham's pi theorem using dimensional analysis used to develop a mathematical model. IBM SPSS statistics software was applied to validate and verify the developed model. The relationship between the measured and predicted values of the draft force evaluated R 2 is 0.91. The predicted draft force value of skewness and kurtosis is in the range of accepted values. The performance of predicted draft force checked using RRMSE and CRM. Investigation findings demonstrate that derived mathematical equation was successful and viable for predicting the draft force of an ard plow in a silt loam soil. [ABSTRACT FROM AUTHOR]

Published

2024

49. SIMULATION OF LONG-TERM WATER EROSION IN RAINFED CROPLANDS OF EASTERN WASHINGTON.

Author

Dahal, Mugal Samrat, Joan Wu, Dobre, Mariana, and Ewing, Robert P.

Subjects

*TILLAGE, *EROSION, *CONSERVATION of natural resources, *SOIL erosion, *FARMS, *SOIL conservation, *CONSERVATION tillage

Abstract

Water erosion is an ongoing problem in eastern Washington due to its hilly terrain, highly erodible silt loam soils, rain on thawing soil, and the prevalence of conventional tillage. The region is characterized by a Mediterranean-type climate with warm, dry summers and cool, wet winters. Three distinct precipitation zones, with annual totals low (<380 mm), intermediate (380-460 mm), and high (>460 mm), dictate the area's crop rotations. A unique 43-year (1940-1982) dataset of winter erosion measured on multiple agricultural fields in Whitman County, eastern Washington, by Verle Kaiser, a USDA Soil Conservation Service agronomist, showed annual erosion rates averaging 53.8 Mg ha-1, far exceeding the current Natural Resources Conservation Service tolerable limit of 11 Mg ha-1 yr-1 for the soils in the area. Kaiser's field data allowed us to compare the historical field-measured erosion rates with those simulated by the WEPP (Water Erosion Prediction Project) model. Anthropogenic factors, such as tillage and crop rotation, change with time. Conservation tillage, including reduced- and no-till, has been increasingly adopted in eastern Washington since the mid-1980s. The specific objectives of this study were to (1) apply the WEPP model to simulate soil erosion in eastern Washington and evaluate the interactive effects of climate and management, in addition to topography and soil, on water erosion in the study area, and (2) compare the simulation results with Kaiser's historical field dataset and elucidate the long-term soil erosion trend. The WEPPcloud interface was used to delineate a watershed within each precipitation zone of the study area. Climate inputs were divided into two periods: the past (1939-1982) and the present (1983-2020). Erosion has noticeably decreased from the past to the present, with WEPP simulated annual erosion averaging 13.5, 34.5, and 52.6 Mg ha-1 for the past, and 9.5, 14.1, and 15.5 Mg ha-1 for the present, in the selected watersheds in the low-, intermediate-, and high-precipitation zones, respectively. The decreasing trend was primarily due to the increased adoption of conservation tillage and crop rotation, as well as a decrease in the number of high-intensity precipitation events in the present climate. [ABSTRACT FROM AUTHOR]

Published

2024

50. Cover Crops and Strip Tillage had no Effect on Yield in Productionscale Sugarbeet Fields.

Author

Cates, Anna M., DeJong-Hughes, Jodi, Gatchell, Dorian, and Bloomquist, Mark

Subjects

*TILLAGE, *AGRICULTURAL productivity, *SUGAR beets, *WIND erosion, *CROP yields

Abstract

Sugarbeet production, including pre-season tillage and late-season soil inversion to lift beets, leaves soil vulnerable to wind erosion by removing all residue cover from soil. The integration of cover crops and strip tillage can provide protection of soils from wind erosion in sugarbeet fields, while also potentially improving soil health, decreasing water erosion, and nutrient losses. However, it’s critical to show that these practices do not carry risk of lowering profits by diminishing yield and quality. Here, we evaluated the effect of strip-tillage with and without cover crops prior to sugarbeet on sugarbeet yield and quality parameters. We performed replicated strip trials on three growers’ fields in Western Minnesota, using production-scale equipment and grower best management practices, and found no effect of strip-tillage with or without cover crops in yield, sucrose %, sucrose purity, or extractable sucrose (P>0.10 for all variables). This indicates that adopting strip-till and cover crops practices poses little risk to on-farm profit. [ABSTRACT FROM AUTHOR]

Published

2024