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3. Impact of Regenerative Agriculture on Soil Erosion

Author

Kodaparthi, Ashwitha, Ranjit, Pabbati, Deepu, P Gnana, Kaushik, Desavathi Manju, Valli, Lade Akshayani, Ashrutha, Pindi, Harihara, Jogipeta, Chepuri, Kalyani, Negm, Abdelazim M., Series Editor, Chaplina, Tatiana, Series Editor, Aransiola, Sesan Abiodun, editor, Babaniyi, Babafemi Raphael, editor, Aransiola, Adejoke Blessing, editor, and Maddela, Naga Raju, editor

Published
2024
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5. Soil and organic phytosanitary management on onion productivity in Serra Gaúcha, Southern Brazil

Author

Maurício Rigo Panazzolo, Wendel Paulo Silvestre, Luis Carlos Diel Rupp, Leandro Venturin, and Valdirene Camatti Sartori

Subjects
Bokashi, No-till farming, Plant extracts, Straw, Agriculture, Agriculture (General), S1-972
Abstract

Onions are an important vegetable crop in Serra Gaúcha. However, adequate soil, nutrition, and disease management depend on harvest production and quality. Thus, using organic products as an alternative to conventional management methods has grown recently. This study aimed to evaluate the effect of different soil and phytosanitary management of organic origin on onion productivity. Three soil management methods were tested: soil without vegetation cover, soil with vegetation cover, and soil with vegetation cover plus Bokashi compost. The subplots corresponded to the weekly application of ginger extract, biweekly application of Bordeaux mixture, and control (water) for phytosanitary treatments. None of the phytosanitary treatments had any effect on the crop. Soil management influenced the severity of leet rust (Puccinia porri), where the use of straw and the concurrent application of straw and Bokashi reduced the severity. Straw and straw associated with Bokashi, although it produced plants with lower height and stem diameter, promoted greater bulb masses and productivity and increased soil fertility. Thus, the concomitant use of straw and Bokashi can be a strategy to increase onion productivity, which aligns with the principles of organic agriculture.

Published
2024
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6. Impact of Soil Burial Depths on Survival of Weedy Rice Seeds: Implications for Weed Management.

Author

Tian, Yu-Ge, Pang, Li-Hao, Jiang, Xiao-Qi, and Lu, Bao-Rong

Subjects
*RICE seeds, *SOIL depth, *WEED control, *WEED seeds, *AGRICULTURE, *NO-tillage
Abstract

Weedy rice (Oryza sativa f. spontanea) is a noxious weed infesting rice fields worldwide and causes great yield losses for cultivated rice. Effective management of this weed is essential for the world's rice production. Yet, the management of weedy rice is challenging. One of the reasons is that shattered weedy rice seeds stored in soil often trigger great weed proliferation in the succeeding crop seasons. To study the survival of weedy rice seeds in soil seedbanks, we conducted 90-day soil burial experiments at different soil depths from 0–25 cm, using weedy rice seeds from Jiangsu Province in China. Results from two independent experiments under the rice field and laboratory conditions indicated significant differences in seed death ratios (SDRs) and induced seed dormancy ratios (ISDRs) of weedy rice at different soil burial depths. Weedy rice seeds exposed to the soil surface (0 cm burial treatment) had the highest SDRs and lowest ISDRs. An evident pattern of quickly declining SDRs with increased soil burial depths was identified from this study, suggesting rapid losses of seed viability on the surface and in shallow layers of soil. Our findings provide a useful guide for designing strategies to effectively control weedy rice by maintaining shattered seeds on the surface or in shallow layers of soil. The practices can easily be achieved through adopting the no-till farming system, which can substantially minimize viable weedy rice seeds as an important component in comprehensive weed management strategies. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Conclusions: Perspectives on Conservation Agriculture

Author

Jayaraman, Somasundaram, Naorem, A. K., Hati, K. M., Sinha, Nishant K., Mohanty, M., Patra, A. K., Chaudhari, S. K., Lal, Rattan, Dalal, Ram C., Jayaraman, Somasundaram, editor, Dalal, Ram C., editor, Patra, Ashok K., editor, and Chaudhari, Suresh K., editor

Published
2021
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13. Soil management for sustainable agriculture under climate change : a modelling study

Author

Feifel, Mario and Feifel, Mario

Abstract

Conservation agriculture practices, such as reduced tillage or residue retention, have gained attention for their potential to enhance agricultural system resilience to climate change and combat soil degradation. However, conventional soil-crop models often neglect the dynamics of soil properties, limiting their ability to predict changes in soil quality on large timescales relevant for sustainable management. This study therefore applies and expands the recently developed Uppsala model of Soil Structure and Function to investigate the long-term impacts of conservation agriculture on soil organic matter (SOM) stocks, the water balance and winter wheat yields under current and future climate in temperate Europe. The model was calibrated for a site in Switzerland and used to simulate a baseline period (1985-2015) as well as 6 future climate change scenarios (2020-2090) under two contrasting soil managements. Conventional intensive tillage with residue incorporation (CIT) was compared to no-till practices with residue retention (CNT). Under current climate conditions, the CNT treatment was able to conserve soil moisture by reducing surface runoff (-97 %) and evaporation (-65 %), as compared to CIT. Though yields remained similar, as under the wet climate, crop growth was not limited by water availability. After 30 years, SOM stocks were 2.8 % higher under CIT, due to larger amounts of above-ground biomass being incorporated through tillage. In future climate projections, significant yield declines were simulated under hotter conditions, driven by much shorter growing periods, potentially linked to limitations of the employed phenology model. Despite declining SOM levels in both systems, CNT maintained 14% higher SOM on average. Although no-till practices did not enhance yields, they showed strong potential to mitigate climate change impacts on SOM and soil function. This suggests that no-till practices, together with adequate residue management, could be a promising st

Published
2024

14. A Textbook On Interdisciplinary Microbiology

Author

Dr. Tanmay Ghosh, Dr. Joy Sarkar, Dr. Tanmay Ghosh, and Dr. Joy Sarkar

Abstract

From deepest of heart containing the warm pleasuring well wishes we are feeling very lucky and honoured to present you the thoroughly revised, willingly prepared and studied with high efforts, the first edition of.We hope the book will become helpful to all the readers of this book who have taken it as a source of knowledge what they seek for. The book is written with immense hard work; dedication and desperation. We have tried to put all the information available to me on these topics for the readers and tried to make it as easy as possible for the easy and correct understanding of the topics by readers. The book is written with dedicated practices of restless work with determination and passion for the writing of a book helpful on this subject. The book is containing the information mostly for the students but we believe that it can also be helpful for everyone.The book is consisting 7 Units al together in it. The unit 1 is focusing on the topic History of Development of Microbiology. The unit 2 is containing the about Diversity of Microorganisms. Unit 3 is filled with the Information about the Different types of Microscopy. The details on the Different types of sterilization technique is described in unit 4. Microbes in Human Health (Medical Microbiology and Immunology) & Environmental Microbiology is widely discussed in unit 5. The unit 6 contains about Industrial Microbiology or Microbes used in Industry. The Unit 7 is discussed about the Food and Dairy Microbiology.We are thankful to the publishers for the speedy and quality production. We shall welcome the constructive suggestion, if any, from the reader.

Published
2024

15. Biological and synthetic approaches to inhibiting nitrification in non-tilled Mediterranean soils.

Author

Bozal-Leorri, Adrián, Corrochano-Monsalve, Mario, Arregui, Luis Miguel, Aparicio-Tejo, Pedro M., and González-Murua, Carmen

Subjects
NITRIFICATION inhibitors, ALLELOPATHIC agents, NITRIFICATION, GREEN Revolution, AMMONIA-oxidizing bacteria, GRASSLAND soils
Abstract

Background: The increasing demand for food production has led to a tenfold increase in nitrogen (N) fertilizer use since the Green Revolution. Nowadays, agricultural soils have been turned into high-nitrifying environments that increase N pollution. To decrease N losses, synthetic nitrification inhibitors (SNIs) such as 3,4-dimethylpyrazole phosphate (DMPP) have been developed. However, SNIs are not widely adopted by farmers due to their biologically limited stability and soil mobility. On the other hand, allelopathic substances from root exudates from crops such as sorghum are known for their activity as biological nitrification inhibitors (BNIs). These substances are released directly into the rhizosphere. Nevertheless, BNI exudation could be modified or even suppressed if crop development is affected. In this work, we compare the performance of biological (sorghum crop) and synthetic (DMPP) nitrification inhibitors in field conditions. Results: Sorghum crop BNIs and DMPP prevented an increase in the abundance of ammonia-oxidizing bacteria (AOB) without affecting the total bacterial abundance. Both nitrification inhibitors maintained similar soil NH4+ content, but at 30 days post-fertilization (DPF), the sorghum BNIs resulted in higher soil NO3 content than DMPP. Even so, these inhibitors managed to reduce 64% and 96%, respectively, of the NO3-N/NH4+-N ratio compared to the control treatment. Similar to soil mineral N, there were no differences in leaf δ15N values between the two nitrification inhibitors, yet at 30 DPF, δ15N values from sorghum BNI were more positive than those of DMPP. N2O emissions from DMPP-treated soil were low throughout the experiment. Nevertheless, while sorghum BNIs also maintained low N2O emissions, they were associated with a substantial N2O emission peak at 3 DPF that lasted until 7 DPF. Conclusions: Our results indicate that while sorghum root exudates can reduce nitrification in field soil, even at the same efficiency as DMPP for a certain amount of time, they are not able to prevent the N pollution derived from N fertilization as DMPP does during the entire experiment. [ABSTRACT FROM AUTHOR]

Published
2021
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16. A "Win‐Win" for Soil Conservation? How Indiana Row‐Crop Farmers Perceive the Benefits (and Trade‐offs) of No‐Till Agriculture.

Author

Kawa, Nicholas C.

Subjects
*NO-tillage, *SOIL conservation, *SOIL degradation, *FARMERS, *AGRICULTURE, *SOIL erosion
Abstract

To address problems of soil degradation, industrial farmers across the United States have converted to no‐till agriculture, which can mitigate the effects of soil erosion and reduce operating costs without necessarily compromising agricultural output. However, producers still debate the benefits of this practice. Through participant observation and semi‐structured interviews with 14 row‐crop farmers in central Indiana, this study examines farmer perceptions of no‐till as a soil conservation practice. Ethnographic findings reveal that adopters highlight no‐till's benefits for improving soil quality while also minimizing operating costs, including labor and fuel. However, both adopters and critics alike acknowledge trade‐offs; for example, no‐till disrupts entrenched management practices and norms—from the aesthetics of "clean" fields to the timing of spring planting. Furthermore, some non‐adopters argue that no‐till's heightened reliance on herbicide contradicts the broader goals of conservation. This study thus shows that while a compelling case can be made for no‐till as an environmental and economic "win‐win," this narrative also elides ongoing disagreements and trade‐offs linked to its adoption. No‐till's appeal for many producers is that it advances soil conservation without fundamentally challenging industrial farming's aspiration for ever‐increasing efficiency and profitability. [ABSTRACT FROM AUTHOR]

Published
2021
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17. Soil physiology discriminates between no‐till agricultural soils with different crop systems on winter season.

Author

Frene, Juan P., Gabbarini, Luciano A., Wall, Luis G., and Goss, Michael

Subjects
CROPPING systems, SOILS, CROP rotation, FERTILIZER application, NO-tillage
Abstract

Community level physiological profiles (CLPPs) were used to characterize soils with two contrasting no‐till agricultural practices in terms of crop rotation, looking for differences in soil physiology according to management: 'good agricultural practices (GAP), based on crop rotation, and monocropping agriculture considered as poor agricultural practices (PAP); soils from nearby natural environments (NE) were used as reference. Soils from productive fields of the central Argentine Pampas were sampled in summer and winter. Treatments were replicated at four places along a 400‐km east–west transect, between longitudinal parallels 31° to 33°S. The CLPPs assay was based on either basal respiration or substrate‐induced respiration using different C sources, with or without additional nitrogen as a mineral amendment, to mimic fertilizer application effects. CLPPs allowed discrimination between soils with different agricultural practices, despite the differences in the texture and mineralogy of the soils at each replicate site. NE soils were significantly different to agriculture soils based on 70% of the estimated CLPPs parameters. The differences between GAP and PAP soils by CLPPs data were supported by 50% of the estimated parameters in winter and only by 12.5% of them in summer. The Euclidean distance between GAP and PAP increased 102% in winter compared with summer. Additional N to the incubation did not significantly modify the result. Coumaric and propionic acids appeared to be good substrates for discrimination between different agriculture practices by CLPPs. [ABSTRACT FROM AUTHOR]

Published
2020
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18. The effect of 12-year ecological farming on the soil hydraulic properties and repellency index.

Author

Fér, Miroslav, Kodešová, Radka, Hroníková, Soňa, and Nikodem, Antonín

Subjects
*WATERLOGGING (Soils), *SOIL moisture, *HYDRAULIC conductivity, *SOIL quality, *SOILS
Abstract

The objective of this study was to elucidate the influence of long-term ecological farming on selected soil properties by comparing results obtained in the field with continuous conventional farming (CT) and those obtained in the field where the original CT was converted into ecological farming system with no-till practice (NT) twelve years earlier. Soil water retention curves were obtained for 100 cm3 undisturbed soil samples using a pressure plate apparatus. Hydraulic conductivity and the repellency index were assessed directly in the field using a mini disk infiltrometer. The examined soil properties showed that NT mostly had a positive influence on the soil quality. The soil water retention capacity represented by the saturated soil water content of 0.32 and 0.40 cm3 cm−3 and the reciprocal of the air-entry pressure head of 0.0227 and 0.0187 cm for CT and NT, respectively, was higher in the NT field than in the CT field. The soil physical quality, represented by the slope of the soil water retention curve at the inflection point of 0.033 (CT) and 0.047 (NT), was better under NT than CT. The hydraulic conductivity at the pressure head of –2 cm was higher in the NT field (0.97 cm hr.−1) than in the CT field (0.17 cm hr.−1). On the other hand, ecological farming increased water repellency (repellency index of 6.73 and 18.91 for CT and NT, respectively). [ABSTRACT FROM AUTHOR]

Published
2020
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19. Modeling and Design of a Disk-Type Furrow Opener’s Coulter Its Mechanical Analysis and Study for No-Till Machinery (Combination and Bertini)

Author

J. Ghezavati, M. Abbasgholipour, B. Mohammadi Alasti, A. Shirneshan, and A. Shadkam

Subjects
ansys, direct planting, no-till farming, rotary coulter, solid works, Technology
Abstract

No-till practices play an important role in decreasing production costs, increasing soil organic matter content, improving soil structure and removing unwanted environmental impacts. However, due to a lack of access to proper machinery for direct seeding in unplowed lands, such practices have failed to produce successful results since they are incapable of providing sufficient contact between soil and seeds. Introducing a machine that can plant seeds and fertilizer at two different depths in hard (unplowed) soils covered with last season’s crop residues can be the first step towards pilot no-till initiatives. This step can finally lead to the promotion of this practice in the potential areas. In this study, different components of a disk furrow opener were optimally designed in Solid Works modelling software. ANSYS was used to analyze this furrow opener and its three main related components. Finally, the coulter’s stress was determined using the von Mises criterion. The result showed that the minimum coulter stress was 1985.5Pa throughout the plane and its maximum belonged to the holes inside the hub with 1.0819x107Pa. The safety factor of the initial coulter was 17.85, while that of the optimally designed coulter was 25.

Published
2017

20. Urochloa ruziziensis Desiccation, Straw Quantity and Position on Nodulation and Production of Soybean ‘M-SOY 7908 RR’

Author

M.P. NEPOMUCENO, B.P. SILVA, P.R.F. GIANCOTTI, F.C.M. PEREIRA, and P.L.C.A. ALVES

Subjects
Glycine max, ground cover, no-till farming, glyphosate, Biology (General), QH301-705.5, Botany, QK1-989
Abstract

ABSTRACT: This study aimed to evaluate the effects of the quantity and soil position of Urochloa ruziziensis straw desiccated with glyphosate for different periods of time on ‘M-SOY 7908 RR’ soybean nodulation, growth and production characteristics. Three experiments were conducted under semi-controlled conditions. In the first, three quantities of U. ruziziensis straw (2.5, 5.0 and 10 ton ha-1) previously desiccated with glyphosate were incorporated into the soil (10 cm deep) or deposited on the soil surface, and in the second experiment, the treatments consisted of three U. ruziziensis desiccation periods, 0, 7 and 12 days before soybean sowing, and one treatment without U. ruziziensis. In the third treatment, desiccation was performed at 0, 5 and 10 days before soybean sowing, and the desiccated plant shoots were removed or left in place before soybean sowing. For each of the experiments, a completely randomized experimental design was adopted, and the masses of the shoot and root dry matter, the degree of nodulation and soybean production were evaluated. The deposition of U. ruziziensis straw on the soil surface promoted the nodulation and growth of ‘M-SOY 7908 RR’ soybean plant shoots, while its incorporation into the soil, even at 2.5 ton ha-1, caused deleterious effects. Desiccation of U. ruziziensis from 0 to 7 days before sowing was also detrimental to the nodulation and growth of M-SOY 7908 RR soybean, reducing its productivity.

Published
2019
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21. Conservation Agriculture as a System to Enhance Ecosystem Services

Author

Somasundaram Jayaraman, Yash P. Dang, Anandkumar Naorem, Kathryn L. Page, and Ram C. Dalal

Subjects
conservation agriculture, no-till farming, ecosystem services, climate change, soil health, biodiversity, Agriculture (General), S1-972
Abstract

Conservation agriculture (CA) is considered a sustainable practice with the potential to maintain or increase crop productivity and improve environmental quality and ecosystem services. It typically improves soil quality and water conservation; however, its effect on crop productivity is highly variable and dependent on local conditions/management. Crop residue retention plays a crucial role in CA and can help to improve overall soil health and ultimately crop productivity and sustainability. However, weed control, herbicide resistance, and weed shift under residue retained fields is a major challenge. Moreover, CA can increase water infiltration and reduce soil loss and runoff. This reduces the surface transport of nitrate and phosphorus from agricultural fields and the eutrophication of water bodies, although leaching of nitrate to groundwater can potentially increase. In addition, CA has been proposed as one of the components in climate-smart agriculture, owing to its reduced period to seed/plant next crop, reduced soil disturbance and low consumption of fossil fuels. Therefore, compared to the conventional intensive tillage, CA has a greater potential for soil C sequestration, favors higher soil biodiversity, lowers greenhouse gas emission, and can assist in mitigating climate change. However, not all experiments report a positive impact. The understanding and decoding the site-specific complexities of CA system is important and requires a multidisciplinary approach.

Published
2021
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22. Labranza convencional y de conservación en el cultivo de la soya (Glycine max (L) Merril).

Author

Barboza, Nacib, Pablo Hernández-Alfonso, C., Pedro Paneque-Rondón, C., Victoria Gómez-Águila, María, and Alexander Miranda-Caballero, C.

Subjects
*OPERATING costs, *ENERGY consumption, *AGRICULTURAL equipment, *ANALYSIS of variance, *EXPERIMENTAL design
Abstract

The objective of the research was to compare the energy cost and operating expenses of the main mechanized agricultural operations in soybean cropping, emphasizing the tillage / sowing operations and quantifying their possible savings using the conservation system, in relation to the conventional system in the plateau of Guanipa, state Anzoátegui, Venezuela, based on the hypothesis that it is possible in Los Riecitos, Municipality Freites, state Anzoátegui, to reduce in these works the energy cost in more than 10% in the exploitation of agricultural machinery. It was used in the experimental design an analysis of variance for the determination if there are or not significant differences between the population means of each variable and the treatments applied. For the determination of energy and exploitation costs was used the program "Energy and Exploitation Costs (CEE)". In each experimental unit were studied apparent density, humidity and soil resistance and also fuel consumption and energy cost. It is concluded that in the depths studied the physic-mechanical characteristics of the soils of the plots tested do not interfere in the application of the treatments. The system with the lowest energy cost, operating expenses and fuel consumption as a percentage was conservation (88.19% and 89.21% respectively). The technology used in the conservation system meant a saving of labor, by investing less time (4 h·ha-1) of use of the machinery. [ABSTRACT FROM AUTHOR]

Published
2019

23. Identifying Soils for Reduced Tillage and No-Till Farming Using GIS.

Author

Vilček, Jozef, Koco, Štefan, Torma, Stanislav, Lošák, Tomáš, and Antonkiewicz, Jacek

Subjects
*TILLAGE, *SOIL science, *GEOGRAPHIC information systems, *FARMS, *FLUVISOLS, *CHERNOZEM soils
Abstract

Reduced tillage and no-till farming technology is possible to employ only under particular soil conditions. The total land area of sites in Slovakia that are available for the application of reduced tillage is approximately 25.3% of agricultural land (20.4% very suitable and 4.9% less suitable), while 74.7% of soils are not suitable for this technological approach. Only 19.8% of soils (17.8% very suitable and 2.0% less suitable) are suitable for no-till farming technologies of soil preparation before sowing, while 80.2% of soils are not suitable for this method. The best conditions for these approaches are found in soil types such as Chernozems, Cutanic Luvisols, Mollic Luvisols, and Fluvisols, but also Albic Luvisols and Regosols located on plains, in lowland areas, and in lower altitude basins. In the higher altitude regions, we do not recommend employing these technologies. The identification of areas suitable for this method is possible using the information in the databases of the Soil Science and Conservation Research Institute in Bratislava, which have been managed in this study using a geographic information system. The input parameters were the altitude of a given locality, as well as the slope steepness, depth, stoniness, and texture of the soil. It turns out that GIS is also an appropriate means for identifying and categorizing landscapes and agricultural lands in order to implement differentiated (reduction) cultivation systems. [ABSTRACT FROM AUTHOR]

Published
2019
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24. Sugarcane Root Development and Yield under Different Soil Tillage Practices

Author

Emmerson Rodrigues de Moraes, José Geraldo Mageste, Regina Maria Quintão Lana, José Luiz Rodrigues Torres, Luis Augusto da Silva Domingues, Ernane Miranda Lemes, and Luara Cristina de Lima

Subjects
no-till farming, root system development, Saccharum officinarum, soil tillage systems, Agriculture (General), S1-972
Abstract

ABSTRACT New strategies for sugarcane production have been very important since the incorporation of ethanol in the Brazilian energy mix in the early 1970s. Prior to planting sugarcane, the soil is prepared, and this process can affect root development and, consequently, sugarcane production. This study was conducted in an area of sugarcane crop renewal in the Cerrado biome (Brazilian tropical savanna), with the objective of identifying which tillage system generates the better root development and improved yield in sugarcane. The treatments were: 1) weed desiccation + moldboard plowing (0.4 m) + mild spike tooth harrowing (0.15 m); 2) subsoiler (0.3 m) + mild spike tooth harrowing (0.15 m); 3) weed desiccation + no-tillage (furrow opening and fertilizer); 4) weed desiccation + subsoiler (0.4 m); 5) ratoon destruction + subsoiler (0.4 m); 6) ratoon destruction + spike tooth harrowing (0.2 m) + moldboard plowing (0.4 m) + mild spike tooth harrowing (0.15 m). Characteristics of the sugarcane root system, such as the root length density, average distance between roots, and root soil exploration, after the first harvest (1.5 years) were studied. Root length density was greater for the treatments that included plowing (0.4 m) and harrowing (0.15 m) operations. The average distance between roots was low in the no-tillage system. The highest sugarcane yield in the plant crop was achieved by management practices with more extensive soil profile disturbances, like plowing followed by harrowing.

Published
2019
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26. A spatially explicit representation of conservation agriculture for application in global change studies.

Author

Prestele, Reinhard, Hirsch, Annette L., Davin, Edouard L., Seneviratne, Sonia I., and Verburg, Peter H.

Subjects
*AGRICULTURAL conservation, *ARABLE land, *WEATHERING, *CLIMATE change, *ECOSYSTEMS
Abstract

Abstract: Conservation agriculture (CA) is widely promoted as a sustainable agricultural management strategy with the potential to alleviate some of the adverse effects of modern, industrial agriculture such as large‐scale soil erosion, nutrient leaching and overexploitation of water resources. Moreover, agricultural land managed under CA is proposed to contribute to climate change mitigation and adaptation through reduced emission of greenhouse gases, increased solar radiation reflection, and the sustainable use of soil and water resources. Due to the lack of official reporting schemes, the amount of agricultural land managed under CA systems is uncertain and spatially explicit information about the distribution of CA required for various modeling studies is missing. Here, we present an approach to downscale present‐day national‐level estimates of CA to a 5 arcminute regular grid, based on multicriteria analysis. We provide a best estimate of CA distribution and an uncertainty range in the form of a low and high estimate of CA distribution, reflecting the inconsistency in CA definitions. We also design two scenarios of the potential future development of CA combining present‐day data and an assessment of the potential for implementation using biophysical and socioeconomic factors. By our estimates, 122–215 Mha or 9%–15% of global arable land is currently managed under CA systems. The lower end of the range represents CA as an integrated system of permanent no‐tillage, crop residue management and crop rotations, while the high estimate includes a wider range of areas primarily devoted to temporary no‐tillage or reduced tillage operations. Our scenario analysis suggests a future potential of CA in the range of 533–1130 Mha (38%–81% of global arable land). Our estimates can be used in various ecosystem modeling applications and are expected to help identifying more realistic climate mitigation and adaptation potentials of agricultural practices. [ABSTRACT FROM AUTHOR]

Published
2018
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30. Effects of farming systems, tillage, and traffic practices on deep drainage and soil salt loads in the Queensland Murray–Darling and Fitzroy Basins using soil chloride

Author

D. M. Silburn, M. H. Crawford, Gavan McGrath, A. J. W. Biggs, and P. E. Tolmie

Subjects
Conventional tillage, food and beverages, Soil Science, Context (language use), Environmental Science (miscellaneous), Crop rotation, Tillage, No-till farming, Agronomy, Soil water, Environmental science, Drainage, Mulch, Earth-Surface Processes
Abstract

Context Cropping in the Queensland Murray–Darling and Fitzroy Basins has precursors for secondary salinity – high soil salt loads and increased drainage after clearing. Aims To measure changes in deep drainage, for key tillage, traffic, and cropping systems. Methods Steady-state and transient chloride (Cl) mass-balance were applied to Cl profiles from four tillage and crop rotation trials and one controlled traffic trial in southern and central Queensland, to determine deep drainage below the root zone. Key results Large downward movement of Cl occurred after clearing. Deep drainage from transient Cl balance for cropping was a small proportion of rainfall but considerably higher than under native vegetation. Deep drainage was consistently greater under zero than conventional tillage, for both winter and summer cropping. For example, deep drainage was greatest for zero tillage (∼45 mm/year) and least for conventional, stubble mulch, and reduced tillage (2–6.3 mm/year) at the highest-rainfall site (677 mm/year). Deep drainage was 12.7 and 7.9 mm/year for zero and conventional tillage, respectively, at the lowest-rainfall site (497 mm/year). Drainage under continuous wheat conventional tillage was more than twice that where some summer crops were included. At Billa Billa, continuous wheat had greater deep drainage by three to five times than continuous sorghum for three of four tillage systems. No drainage was detected during 6 years of opportunity cropping. A pasture legume ley had only 1.7 mm/year of deep drainage. Deep drainage was less for compacted than non-compacted treatments (23.3 vs 38.2 mm/year). Conclusion and implications Increased deep drainage with zero tillage and controlled traffic can be reduced using summer crops, particularly opportunity cropping where crops are planted when soil water is sufficient, and ley pastures.

Published
2021
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31. Effect of Sowing Dates, Tillage and Establishment Methods on Growth and Yield of Mustard

Author

P. Sneha Reddy, A. Krishna Chaitanya, G. Satyanarayana Reddy, and K. B. Suneetha Devi

Subjects
Tillage, No-till farming, Conventional tillage, Yield (engineering), Agronomy, Materials Chemistry, Sowing, Transplanting, Mathematics
Abstract

This experiment was conducted at College Farm, Agricultural College, Polasa, Jagtial in Rabi, 2019-20. The experiment was laid out in strip-plot design with T1-Zero tillage with direct sowing, T2-Zero tillage with transplanting, T3-Conventional tillage with direct sowing and T4-Conventional tillage with transplanting in 4 horizontal strips and D1-15 November, D2-25 November and D3-5 December sowing dates in 3 vertical strips. Nursery was prepared 15 days earlier to sowing date for transplanting. Direct sowing and transplanting was carried out on same date. Among tillage practices with establishment methods, significantly the highest performance of growth parameters was obtained with T4 and lowest response under T1. Significantly higher values of growth parameters were recorded under early sowing date (15 November) followed by 25 November and lowest was registered on 5 December. The number of siliqua plant-1, seeds siliqua-1 was significantly higher under T4 which resulted in higher seed yield (754.38 kg ha-1), stover yield (1815.40 kg ha-1) and was comparable with T3. Higher number of siliqua per plant-1 and number of seeds per siliqua-1 resulting in higher seed yield (944.55 kg ha-1) and stover yield (1943.12 kg ha-1) were recordeed on 15 November followed by 25 November and lowest was registered on 5 December.

Published
2021
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32. Long-term nitrogen fertilization, but not short-term tillage reversal, affects bacterial community structure and function in a no-till soil

Author

Bin Ma, Xiaofei Lv, Scott X. Chang, Lei Sun, and Yanjiang Cai

Subjects
2. Zero hunger, Agroecosystem, 0303 health sciences, Stratigraphy, 04 agricultural and veterinary sciences, 15. Life on land, Biology, biology.organism_classification, Soil quality, 6. Clean water, Tillage, 03 medical and health sciences, No-till farming, Denitrifying bacteria, Human fertilization, Agronomy, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Gemmatimonadetes, Relative species abundance, 030304 developmental biology, Earth-Surface Processes
Abstract

No-till (NT) and fertilization are common land management practices in agricultural production systems to increase soil quality and crop yield. No-till can be reversed to tillage (termed tillage reversal, TR, in this paper) due to changes in management objectives. The impact of NT, TR, and TR plus nitrogen (N) fertilization (TRN) treatments on the composition and structure of bacterial communities in a Gray Luvisol was studied in west-central Alberta, Canada. The structure of bacterial communities was not affected by the TR treatment (compared with NT). The TRN treatment increased the relative abundance of some bacterial taxa groups, e.g., Gemmatimonadetes, Thermoleophilia and Solibacteres, that have chemolithotrophic nitrifying functions as compared with the TR treatment. The decreased relative abundance of some bacterial taxa groups, such as Alphaproteobacteria, Deltaproteobacteria, Spartobacteria, and Planctomycetia that have denitrifying functions, would change the soil’s denitrification function in the TRN as compared to the TR treatment. There were more dominant bacterial taxa groups, and the bacterial community had greater inter-annual variations in the TRN than in the NT and TR treatments. Moreover, the function of bacterial communities was affected by the TRN as compared to the NT and TR treatments, based on the predicted metagenomes. We conclude that when TR was applied to the soil with long-term N fertilization, which eliminates N limitation, altered soil bacterial community structure and function over TR applied to the studied Gray Luvisol without long-term N fertilization. Findings from our study have important implications for improving land management practices through tillage and N fertilization to enhance the soil’s function and quality in agroecosystems.

Published
2021
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35. Content of trace elements in the soil of typical chernozem depending on methods of primary tillage

Author

D. V. Dubovik, A. V. Shumakov, E. V. Dubovik, and B. S. Ilyin

Subjects
combined tillage, business.product_category, Ecology, Geography, Planning and Development, trace elements, Soil science, no‐till, Contamination, Soil contamination, typical chernozem, Plough, Tillage, No-till farming, Chisel, Statistica software, surface tillage, Environmental science, business, plowing, QH540-549.5, Ecology, Evolution, Behavior and Systematics, Chernozem
Abstract

Aim . To determine the level of trace elements in typical chernozem when using different systems of primary tillage. Materials and Methods . In the study systemic, chemical, comparative‐ analytical, field, laboratory and statistical methods were used and software packages Microsoft Excel and Statistica software packages. The following methods of primary tillage: moldboard plowing 20‐22 cm deep, combined tillage (disking+chisel) 20‐22 cm, surface tillage (disking) 8‐10 cm and without tillage (direct seeding) – No‐till were studied for the level of their impact on the change in the content in the soil of the mobile forms of Cu, Zn, Mn, Co, Ni, Pb and Cd. Results . Specific features of changes in the content of the mobile forms of trace elements when systematically using different systems of primary tillage were determined. Differentiation of the content of trace elements in the soil according to the depth of the treated soil layer was identified, especially in the variants with extremely opposite systems of primary tillage, i.e. plowing and No‐till. When plowing is used the accumulation of Zn, Mn, Co, Ni, Pb occurs in the 10‐20 cm soil layer. When No‐till is used the accumulation of trace elements is observed in the 0‐10 layer. Conclusion . Methods of tillage under study did not contribute to the accumulation of trace elements in the soil in doses exceeding MAC and did not result in soil contamination. The peculiarities identified of the accumulation and distribution of trace elements depending on the method of primary tillage used give the opportunity to regulate their amount in order to raise the level of nutrient content, to improve the nutrition of crops and to control heavy metals to prevent contamination of soil and plants.

Published
2021
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36. Cover Crop Effects on Cash Crops in Northern Great Plains No-till Systems Are Annually Variable and Possibly Delayed

Author

R. Michael Lehman, Shannon L. Osborne, Sharon K. Schneider, and Bee Khim Chim

Subjects
No-till farming, Variable (computer science), Agronomy, Cash crop, fungi, food and beverages, Soil Science, Environmental science, Cover crop, Agronomy and Crop Science
Abstract

Cover crop adoption in conventional no-tillage corn/soybean production systems has been limited due to the lack of specific information regarding the impact of cover crops on cash crop performance. Within a no-till small grain/cover crop-corn (Zea mays L.)-soybean [Glycine max (L.) Merr.] rotation in eastern South Dakota, we evaluated the impact of fall-planted forage oat (Avena sativa L.), hairy vetch (Vicia villosa Roth), winter canola (Brassica napus L.), and a combination of all three compared to a no cover crop treatment on soil nutrient dynamics, biomass, nutrient uptake, and grain yield of the immediatelyfollowing corn crop. At site-year 1, where cover crop growth was most consistent, corn yield was significantly higher with oat, vetch, and a combination of all three cover crops compared to the no cover crop treatment. At site-year 2, corn yields were equivalent among treatments except the combination treatment which was significantly lower. At site-year 3, corn yields in the canola and oat treatments were equivalent to no cover crop, while corn yields with vetch and the combination treatments were lower. Corn biomass and nutrient uptake responded to treatments similarly to corn yields. For site-years 1 and 2, some cover crop treatments resulted in modest, but significant increases in soil N during spring. For site-year 3, the combination treatment immobilized N during the corn vegetative growth phase but released N during the reproductive phase. Cover crop treatments had little effect on plant-available soil P. However, soybean yields two years following cover crop treatments were higher for all three site years with cover crops compared to no cover crop, with this difference significant in two of the three site-years. Immediate effects of cover crops on the following cash crop under no-till were variable and depend on both fall and spring cover crop biomass, which in turn are dependent on the amount and timing of precipitation and temperature patterns. Cover crops in no-till systems may produce more consistent but possibly delayed benefits by boosting yields of cash crops in later years as cover crop residues decompose.

Published
2021
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38. Initiating conservation agriculture shows reduced soil CO2 emissions and improved soil aggregate stability in the first season in rainfed cropping in India

Author

RamKrishna Mahajan, Bharat Mogare, Jitendra Singh, Amirali Kassam, Naveen Patidar, Pankaj Badole, Bhaskar Mitra, Pramod Sahu, Sandeep Viswakarma, Apoorva Oza, Tinni Sawhney, Saeed Karbin, and Sunil Malviya

Subjects
Soil health, Aggregate (composite), Ecology, Agroforestry, Conservation agriculture, Geography, Planning and Development, chemistry.chemical_element, Pollution, Soil aggregate stability, No-till farming, chemistry, Sustainability, Environmental science, Computers in Earth Sciences, Waste Management and Disposal, Carbon, Cropping
Abstract

The reported study was undertaken to determine which soil health indicators showed measurable signs of improvement, during the first year of the process of introducing a Conservation Agriculture (C...

Published
2021
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40. Cover crop and early nitrogen management for common bean in a tropical no‐till system

Author

Rogério Peres Soratto, Katiuça Sueko Tanaka, Ignacio A. Ciampitti, Carlos Alexandre Costa Crusciol, Letusa Momesso, Leonardo Mendes Bastos, Claudio Costa, Universidade Estadual Paulista (UNESP), Federal Univ. of Jataí (UFJ), and Kansas State Univ.

Subjects
No-till farming, Agronomy, Nitrogen management, Environmental science, Cropping system, Cover crop, Agronomy and Crop Science
Abstract

Made available in DSpace on 2022-05-01T09:31:07Z (GMT). No. of bitstreams: 0 Previous issue date: 2021-01-01 Common bean (Phaseolus vulgaris L.) has been grown under no-till (NT), but nitrogen (N) management remains unclear when a previous cover crop is part of the farming system. In this study, we hypothesized that N applied to living cover crops, preceding the main grain crop of the rotation, can increase productivity and N-use efficiency of the grain crop. Common bean was grown after palisade grass [Urochloa brizantha (Hochst. Ex A. Rich.) R.D. Webster] and ruzigrass [Urochloa ruziziensis (R. Germ. and C.M. Evrard) Crins] cover crops combined with N management [application to living cover crops 35 days before common bean seeding (DBS), 1 DBS, conventional, and control (zero-N application)] in four experiment-years. Dry matter (DM) and N content for palisade grass was consistently greater at termination relative to ruzigrass. Nitrogen application 35 DBS increased cover crop DM, N content, and the decomposition rate relative to the other N treatments. Greater common bean yield occurred following palisade grass than ruzigrass, and N application 35 DBS increased common bean yield compared to 1 DBS and conventional in one out of four experiment-years. Only minor differences in the agronomic efficiency (AE) of applied N to cover crops were detected between 35 DBS and 1 DBS, and only for one experiment-year, when palisade grass resulted in greater AE than ruzigrass. Applying N early to living crops such as palisade grass is an alternative N management strategy to the traditional approach for N fertilization in common bean. Dept. of Crop Science Faculty of Agronomic Sciences São Paulo State University (UNESP) Federal Univ. of Jataí (UFJ) Dep. of Agronomy Kansas State Univ. Dept. of Crop Science Faculty of Agronomic Sciences São Paulo State University (UNESP)

Published
2021
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41. Zinc Effects Yield of Mustard (Brassica campestris L.) Under Zero Tillage

Author

Sushan Chowhan and Majharul Islam

Subjects
No-till farming, Yield (engineering), biology, Agronomy, chemistry, Brassica, chemistry.chemical_element, General Medicine, Zinc, biology.organism_classification
Abstract

Zero or no tillage (ZT) mustard (Brassica campestris L.) cultivation is being increased and popularized these days in Bangladesh. But micronutrient management specially Zinc (Zn) with recommended dose of NPKSB fertilizers are poorly practiced in this type of cultivation. Micro nutrient deficiency is an emerging problem due continuous usage of soil resources (ground water, intensive cultivation etc.). Thus, to sustain and adopt the potential yield of modern mustard varieties all types fertilization is must. Basing on this problem an investigation was employed at Bangladesh Institute of Nuclear Agriculture (BINA) Sub-station, farm, Ishurdi, Pabna to find out definite dose of zinc application under zero tillage mustard cultivation for maximizing seed yield. The study was laid in a factorial Randomized Complete Block Design (RCBD) with three replicates. Two modern varieties viz. Binasarisha-10 (V1) and BARI Sarisha-14 (V2) were tested with six level of Zn doses viz. 0.0 kg ha-1 (T1), 1.5 kg ha-1 (T2), 3.0 kg ha-1 (T3), 4.5 kg ha-1 (T4), 6.0 kg ha-1 (T5) and 7.5 kg ha-1 (T6). Seed were line broadcasted after harvesting T. aman rice during Rabi 2020 season. Data on yield parameters were collected after final harvesting and analyzed by Statistix 10. Results divulge that maximum straw and seed yield was attained with treatment combinations V1T4 (3.63 t ha-1) and V2T4 (2.24 t ha-1) with V2T3 (2.18 t ha-1). Whereas, the minimum was obtained from V2T5 (2.51 t ha-1) and V1T1 (0.99 t ha-1) along with V2T1 (1.01 t ha-1). Hence, soil application of Zn between 3 kg ha-1 to 4.5 kg ha-1 may give satisfactory yield for ZT farming.

Published
2021
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42. Direct seeded rice in sequence with zero-tillage wheat in north-western India: addressing system-based sustainability issues

Author

R. K. Malik, Ashok Yadav, Anil Kumar Vats, Dharam Bir Yadav, and Gurjeet Gill

Subjects
Irrigation, Technology, Nematodes, General Chemical Engineering, Science, General Physics and Astronomy, Context (language use), No-till farming, Phalaris minor, Puddling, General Materials Science, Cropping system, General Environmental Science, Mathematics, Productivity, biology, General Engineering, Sowing, biology.organism_classification, Zero-tillage wheat, Agronomy, Sustainability, General Earth and Planetary Sciences, Direct seeded rice, Weeds, Weed
Abstract

Resource conserving and eco-friendly interventions through improved crop establishment are the need of time to produce more with less resources, and mitigating climatic vulnerabilities and protecting environmental quality in the rice–wheat cropping system (RWCS) of India. In this context, seven years (2010–2017) field experimentation at Karnal, Haryana, India revealed that the weed infestation was more intensified and diversified in direct seeded rice (DSR) than puddled transplanted rice (PTR), and even eliminating puddling in rice-induced more infestation of Phalaris minor in succeeding wheat crop. Residue retention in zero-till (ZT) DSR and rotating conventional till (CT) DSR with PTR reduced weed pressure compared to continuous DSR. Root knot and plant parasitic nematodes were less in DSR than PTR but reverse was true for saprozoic nematodes in DSR and ZT situations. CTDSR, ZTDSR (with or without residues), and ZT/CT machine-transplanted rice (MTR) produced grain yields at par (P = 0.05) with PTR. The grain yield of ZT wheat (5.03–6.90 t ha−1) in sequence with CT/ZT rice establishment (DSR/MTR) was 0.3–0.6 t ha−1 higher than what it was attained after puddled rice systems. Net returns from DSR/MTR-based cropping systems were higher than PTR, with 22–31% saving of labor. Irrigation water productivity was also higher under DSR (27.5–29.9 kg ha-cm−1) than PTR (23.7 kg ha-cm−1), with 17.5–22.8% reduction in irrigation input. There was also improvement in soil health under ZTDSR/MTR (higher OC, N, P and K, and lower bulk density) compared to PTR. Overall, the resource conservation and soil health improvement through these planting methods signaled toward system stability over trade-offs in RWCS.

Published
2021

44. Weed germinable seedbanks of rice–wheat systems in the Eastern Indo‐Gangetic Plains: Do tillage and edaphic factors explain community variation?

Author

S.P. Poonia, Daniel C. Brainard, Virender Kumar, Raj Kumar Jat, Pankaj Kumar, Ajay Kumar, Rajiv K. Joon, Andrew M. McDonald, R. K. Malik, Madhulika Singh, Richard G. Smith, Carolyn J. Lowry, and Vipin Kumar

Subjects
Tillage, No-till farming, Conventional tillage, Agronomy, Soil texture, Edaphic, Plant Science, Species richness, Biology, Weed, Agronomy and Crop Science, Relative species abundance, Ecology, Evolution, Behavior and Systematics
Abstract

Zero tillage (ZT) is widely promoted throughout India's Eastern Indo-Gangetic Plains (IGP) because of its potential to increase wheat productivity and resilience to abiotic stresses. Weeds remain a major barrier to ZT adoption, yet it remains unclear how ZT will influence weed communities in the Eastern-IGP. The primary objective of this study was to characterise the composition of the germinable weed seedbank sampled just prior to the wheat phase of rice–wheat farms in Bihar and Eastern Uttar Pradesh, and examine whether adoption of ZT wheat has shifted weed community composition compared to conventional tillage (CT). Additionally, we examined whether edaphic properties and topography (upland vs. lowland) explain variation in germinable weed seedbank communities. In December 2014, we evaluated the germinable seedbank from 72 fields differing in their historic (>=3 year) tillage practices (ZT vs. CT) in three regions: Samastipur–Vaishali–Muzaffarpur (SVM), Ara–Buxar and Maharajgunj–Kushinagar. Weed community composition and species richness varied by region and topography. ZT adoption was associated with lower relative density of Chenopodium album in the germinable seedbank and lower emergence of Phalaris minor seedlings within farmers’ fields. In upland topographies of the SVM region, ZT adoption was also associated with greater relative abundance of Solanum nigrum in the weed seedbank. However, differences between tillage systems in individual species were not large enough to result in detection of differences at the whole-community level. Variation in edaphic properties, most notably soil texture and pH, explained 51% of the variation in the weed seedbank community. Our work suggests several frequent but poorly understood species (e.g. Mazus pumilus and Grangea maderaspatana) in Eastern IGP for which future research should quantify their effects on crop yields. Finally, future work surveying weed species abundance at harvest could further determine the dominant problematic species in these regions.

Published
2021
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45. Caracteristicas produtivas do sorgo enforcer em sistema de plantio direto na região do Sudoeste Goiano, utilizando diferentes doses de fetilizantes organomineral / Productive characteristics of sorghum enforcer in a no-till farming system in the Southwest Region of Goiás, using different doses of organo-mineral fertilizers

Author

Bruno Divino Marques Araújo, Robson Alexandre Scherer, Affonso Amaral Dalla Libera, Lásara Isabella Oliveira Lima, Suleiman Leiser Araújo, Vilma das Dores De Moraes, Gabriel Cunha Resende, Alexandre Caetano Perozini, Francisco Solano Araújo Matos, Joaquim Júlio Almeida Júnior, and Caio Jorge Ferreira Santana

Subjects
Marketing, Pharmacology, Organizational Behavior and Human Resource Management, No-till farming, Agronomy, biology, Strategy and Management, Drug Discovery, Pharmaceutical Science, Sorghum, biology.organism_classification
Published
2021
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46. Quantificar a produtividade do sorgo granífero brs 330 em um neossolo quartzarênico no sistema de plantio direto, utilizando diferentes dose de fertilizante organomineral / Quantify the productivity of grain sorghum brs 330 on a quartzgenic neosol in the no-till farming system, using different doses of organo-mineral fertilizer

Author

Lásara Isabella Oliveira Lima, Bruno Divino Marques Araújo, Affonso Amaral Dalla Libera, Suleiman Leiser Araújo, Vilma das Dores De Moraes, Alexandre Caetano Perozini, Caio Jorge Ferreira Santana, Francisco Solano Araújo Matos, Robson Alexandre Scherer, Gabriel Cunha Resende, and Joaquim Júlio Almeida Júnior

Subjects
Marketing, Pharmacology, Organizational Behavior and Human Resource Management, biology, Strategy and Management, Pharmaceutical Science, engineering.material, Sorghum, biology.organism_classification, No-till farming, Agronomy, Productivity (ecology), Drug Discovery, engineering, Fertilizer, Mathematics
Published
2021
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47. Long‐term straw mulching in a no‐till field improves soil functionality and rice yield by increasing soil enzymatic activity and chemical properties in paddy soils

Author

Liang He, Ligeng Jiang, Yuqiong Luo, Abdullah Khan, Stefan J. Green, Muhammad Zeeshan, Izhar Ali, Shangqin Wei, Anas Iqbal, and Xiaoyan Wu

Subjects
Total organic carbon, Tillage, No-till farming, Agronomy, Yield (wine), Soil Science, Paddy soils, Environmental science, Plant Science, Straw, Mulch
Published
2021
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48. Conservation tillage and organic nutrients management improve soil properties, productivity, and economics of a maize‐vegetable pea system in the Eastern Himalayas

Author

Chandu Singh, R. K. Avasthe, Anup Das, K.P. Mohapatra, Subhash Babu, S.S. Rathore, Raghavendra Singh, Gulab Singh Yadav, Amit Kumar, and Ram Swaroop Meena

Subjects
Tillage, No-till farming, Nutrient, Agronomy, Soil Science, Environmental Chemistry, Soil restoration, Environmental science, Soil properties, Development, Productivity, General Environmental Science
Published
2021
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49. Understanding the Relationship Between Wireworm (Coleoptera: Elateridae) Damage, Varietal Resistance, and Cover Crop Use in Organic Sweetpotato

Author

Anders S. Huseth, Alex L. Woodley, and Alyssa M Pellegrino

Subjects
Crops, Agricultural, Soil health, Insecta, Ecology, Resistance (ecology), Greenhouse, Context (language use), General Medicine, Biology, Coleoptera, Tillage, Soil, No-till farming, Agronomy, Insect Science, Animals, Transplanting, Ipomoea batatas, Cover crop
Abstract

North Carolina is the largest producer of sweetpotato (Ipomoea batatus L.) in the United States but only a small percentage of total production is organic. Transition to organic sweetpotato production has been limited, in part due to a lack of effective non-chemical strategies to control wireworms (Coleoptera: Elateridae). To help bridge this knowledge gap, this study focused on documenting the relationship between wireworm damage to sweetpotato roots and the use of cover crops, a common way to maintain soil health in organic production. This study also tested a wireworm-resistant variety (Monaco) against the widely cultivated susceptible variety (Covington). Two different field studies were used to test the interaction between cover crops and insect-resistant sweetpotato varieties. We first examined a reduced-till cover crop system where cover crop residue remained on the soil surface when transplanting sweetpotato. The following year, we tested a fully incorporated cover crop system with spring termination and intensive tillage before sweetpotato transplanting. To complement these field studies, a greenhouse experiment was conducted to compare the efficacy of the wireworm-resistant variety with two susceptible sweetpotato varieties. Results show that varietal resistance had a strong effect on the amount of wireworm damage observed, with susceptible sweetpotato having more direct wireworm damage than the resistant variety. The effect of the cover crop was not found to be significant in any trial. This study provides important context about the role of varietal resistance in organic production and relatively low risk of cover crop use.

Published
2021
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50. Changes in soil physicochemical properties and bacterial communities at different soil depths after long-term straw mulching under a no-till system

Author

Z. Zhou, Z. Li, K. Chen, Z. Chen, X. Zeng, H. Yu, S. Guo, Y. Shangguan, Q. Chen, H. Fan, S. Tu, M. He, and Y. Qin

Subjects
QE1-996.5, Soil test, Chemistry, Soil organic matter, Soil Science, Geology, Straw, Tillage, Environmental sciences, No-till farming, Agronomy, Soil pH, Soil water, GE1-350, Soil fertility
Abstract

Conservation tillage has attracted increasing attention over recent decades, mainly due to its benefits for improving soil organic matter content and reducing soil erosion. However, the effects of long-term straw mulching under a no-till system on soil physicochemical properties and bacterial communities at different soil depths are still unclear. In this 12-year experiment of straw removal (CK) and straw mulching (SM) treatments, soil samples were collected at 0–5, 5–10, 10–20, and 20–30 cm soil depths. The results showed that the contents of organic carbon (C), nitrogen (N), and phosphorus (P) fractions, and bacterial abundance significantly decreased, whereas pH significantly increased with soil depth. Compared with CK, SM significantly increased total N, inorganic N, available P, available potassium, and soil water content at 0–5 cm, total organic C content at 0–10 cm, and dissolved organic C and N contents at 0–20 cm. Regarding bacterial communities, SM increased the relative abundances of Proteobacteria, Bacteroidetes, and Acidobacteria but reduced those of Actinobacteria, Chloroflexi, and Cyanobacteria. Bacterial Shannon diversity and Shannon's evenness at 0–5 cm were reduced by SM treatment compared to CK treatment. Furthermore, SM increased the relative abundances of some C-cycling genera (such as Terracidiphilus and Acidibacter) and N-cycling genera (such as Rhodanobacter, Rhizomicrobium, Dokdonella, Reyranella, and Luteimonas) at 0–5 cm. Principal coordinate analysis showed that the largest difference in the composition of soil bacterial communities between CK and SM occurred at 0–5 cm. Soil pH and N and organic C fractions were the major drivers shaping soil bacterial communities. Overall, SM treatment is highly recommended under a no-till system because of its benefits to soil fertility and bacterial abundance.

Published
2021

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