Your search keyword '"CROP rotation"' showing total 27,440 results

101. 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

102. Arbuscular Mycorrhizal Fungi in Organic Versus Conventional Farming

Author

Wahdan, Sara Fareed Mohamed, Asran, Aya G. A., Abdellatef, Mayar, Atia, Mohamed A. M., Ji, Li, Ahammed, Golam Jalal, editor, and Hajiboland, Roghieh, editor

Published

2024

103. Savvy SANITATION PROTOCOLS.

Author

LORIA, KEITH

Subjects

CANNABIS (Genus), SPECIALTY crops, CROP rotation, AMMONIA compounds, FARMERS, WEEDS, ROOT rots

Abstract

Maintaining proper sanitation protocols in greenhouses is crucial for preventing the spread of pathogens and pests. This includes removing organic material, cleaning surfaces with a pressure washer and detergent, and applying a disinfectant. Sanitizing agents such as bleach and quaternary ammonium can be used, but it's important to read the label for effectiveness on specific surfaces. Thorough sanitation can lead to better plant health, increased yield, and reduced pest problems in future crops. It's also important to sanitize equipment and tools, and to educate the team on the importance of sanitation to prevent shortcuts. [Extracted from the article]

Published

2024

104. THE SWEET SPOT: Wheat harvest is a summer ritual in sully County though the landscape in changing.

Author

COPPESS, CHAD

Subjects

AGRICULTURE, WHEAT, CROP rotation, CLIMATOLOGY

Abstract

The article presents the discussion on evolution of agriculture in Sully County, South Dakota. Topics include highlighting the historical dominance of wheat production and its recent decline due to crop rotation and shifting agricultural practices towards row crops like corn and soybeans; and influenced by climate cycles, seed genetics, and market dynamics, have reshapedrow farming traditions and economic strategies in the region.

Published

2024

105. Long-Term Impact of Crop Diversification and Nutrient Management on Soil Phosphorus Pools in Indo-Gangetic Plain.

Author

Dutta, Asik, Hazra, Kali Krishna, Nath, Chaitanya Prasad, Kumar, Narendra, Singh, Ummed, Singh, Sati Shankar, and Praharaj, Chandra Sekhar

Subjects

*SOIL management, *CROP management, *CROP residues, *FARM manure, *CROP diversification, *CHICKPEA, *CROP rotation

Abstract

Understanding the dynamics of soil phosphorus (P) over extended periods of soil and crop management practices is essential for sustainable P management. This study assessed the impact of four crop rotations [maize-wheat (M-W), maize-wheat-mungbean (M-W-Mb), maize-wheat-maize-chickpea (M-W-M-C), and pigeonpea-wheat (P-W)] each with three levels of nutrient management [control (CT), integrated nutrient management (suboptimal fertilizer+ farmyard manure + crop residue + bio-fertilizers; INM), and sole-chemical fertilizers (CF)] on soil inorganic and organic P (Pi and Po) pools and crop–soil relationships at the end of 15-year cropping. Legume-inclusive rotations resulted in higher labile-P pools, being higher with M-W-M-C and P-W. M-W-M-C rotation had higher moderately labile organic P (Po) in both surface (+23%) and subsurface (+18%) depths over M-W. Di-calcium P (Ca2-P) (+6%) and microbial biomass P (MBP) (+46%) increased in M-W-Mb over M-W, while iron-P (Fe-P) was reduced (−12%) in subsurface soil. INM enhanced bioavailable-P [soluble-P (+17%), labile-Pi (+15%) labile-Po (+12%), MBP (+96%), moderately labile-Po (+22%)] over CF in surface soil, while CF had a higher Fe-P (+16%). Legumes in rotation caused notable changes in the surface-to-subsurface ratio (SSBR) of Ca2-P (1.18–1.50) and occluded-P (1.64–2.78). INM had a higher SSBR of labile-P pools but had a lower SSBR of occluded-P facilitating mobilization of the later in the surface. Hence, in tropical soils, legume-inclusive diversification (particularly with chickpea) and INM involving crop residue recycling could be a sustainable option to improve P use efficiency, crop productivity, and save fertilizer resources. [ABSTRACT FROM AUTHOR]

Published

2024

106. Restoration of war-damaged soil fertility to ensure sustainable agricultural production, food security and global recognition of Ukraine

Author

Vyacheslav Shebanin, Valentyna Gamayunova, Mykola Karpenko, and Oleksandr Babych

Subjects

crop rotation, plants, compaction, dunder molasses, organic fertilisers, phytoremediation, Agriculture

Abstract

The introduces new agrotechnological crop rotations is relevant in the context of environmental protection. The study aims to investigate the effectiveness of introducing two crop rotations on degraded lands in the Mykolaiv region, where active military operations were conducted. The study determined that the introduction of new crop rotations led to a 1.3-fold increase in gross output compared to previous data. In a five-field crop rotation, growing perennial grasses for green fodder together with annual grasses for silage restored soil fertility and increased yields by 30 c/ha compared to existing economic indicators. Oat yields with perennial grasses increased by 18 c/ha. Growing corn for silage and green fodder provided an additional 100 cwt/ ha. An increase in the yield of fodder roots and annual grasses for green fodder by 110 c/ha demonstrated the effectiveness of the new crop rotations. In a seven-season crop rotation, the introduction of perennial grasses increased soil fertility reduced soil erosion, and increased yields of winter wheat and sugar beet. Sugar beet yields increased by 25 c/ha, while potatoes and grain corn yields increased by 55 c/ha. The introduction of annual grasses, pulses and buckwheat helped to increase yields by 28 c/ ha. The results of the study can be used by local communities to develop and implement environmental measures and programmes aimed at restoring the structure and fertility of damaged lands and preserving their quality

Published

2024

107. Rotation with other crops slow down the fungal process in tobacco-growing soil

Author

Ming Liu, Rujun Xue, Chengwei Yang, Ningbo Han, Yanxia Hu, Kaiyuan Gu, Jie Zhao, Shuyue Guan, Jiaen Su, and Yonglei Jiang

Subjects

Tobacco-growing soil, Crop rotation, Fungal diversity, Fungal abundance, Soil fungi process, Medicine, Science

Abstract

Abstract Continuous cultivation of tobacco could cause serious soil health problems, which could cause bacterial soil to change to fungal soil. In order to study the diversity and richness of fungal community in tobacco-growing soil under different crop rotation, three treatments were set up in this study: CK (tobacco continuous cropping); B (barley-tobacco rotation cropping) and R (oilseed rape-tobacco rotation cropping). The results of this study showed that rotation with other crops significantly decreased the soil fungal OTUs, and also decreased the community richness, evenness, diversity and coverage of fungal communities. Among them, B decreased the most. In the analysis of the composition and structure of the fungal community, it was found that the proportion of plant pathogens Nectriaceae decreased from 19.67% in CK to 5.63% in B, which greatly reduced the possibility of soil-borne diseases. In the analysis of the correlation between soil environmental factors and fungal communities, it was found that Filobasidiaceae had a strong correlation with TP and AP, and Erysiphaceae had a strong correlation with TK and AK. NO3 −-N and NH4 +-N were the two environmental factors with the strongest correlation with fungal communities. The results of this study showed that rotation with other crops slowed down the process of soil fungi in tobacco-growing soil and changed the dominant species of soil fungi community. At the same time, crop rotation changed the diversity and richness of soil fungal community by changing the physical and chemical properties of soil.

Published

2024

108. Sunflower Broomrape (Orobanche cumana Wallr.) and Weeds in Sunflower Crops with Minimized Tillage in a Steppe Ecotype Crop Rotation

Author

Shevchenko Sergey, Derevenets-Shevchenko Kateryna, Shevchenko Mikhail, and Shevchenko Oleksandr

Subjects

sunflower, broomrape, weed, crop rotation, soil tillage, yield, Ecology, QH540-549.5

Abstract

An important reserve for increasing the productivity of agricultural production is a scientifically based crop structure and the use of rational crop rotations, which implement the optimal ratio of agroecological standards. The aim of the research was to determine the influence of elements of agrotechnical measures, in particular, the saturation of crop rotations with sunflower, soil tillage system on the number and species composition of various agrobiological groups of weeds in sunflower crops, including the weed parasite sunflower broomrape (Orobanche cumana Wallr.). Weed control measures and the spread of the parasitic weed sunflower broomrape in sunflower crops have been carried out according to the methods generally accepted in agriculture and weed science. The scheme of the experiment included crop rotations with saturation in the structure of sunflower sowing of 12.5, 20, 25, 33.3, 50, 100% and three systems of basic tillage: moldboard plowing, disc tillage, and no-tillage. As a result of the research, it has been found that the systems of disc tillage and no-tillage cause an increase in the number of weeds in sunflower crops compared to the moldboard plowing by 1.3–1.5 times. On average, over the years of research, the abundance of weeds in the plots when using disk tools was 10.4–15.1 pcs./m2, moldboard plowing was 7.1–12.4 pcs./m2, and before harvesting was 2.6–5.2 and 4.1–12.4 pcs./m2. The highest degree of sunflower broomrape damage has been observed in 2-fields crop rotation (winter wheat—sunflower) and permanent sunflower cultivation, as 16.0–32.4% of affected sunflower plants have been observed here. The intensity of sunflower broomrape damage to sunflower plants was higher in the moldboard plowing system and amounted to 1.2–8.3 pcs./per plant, which exceeded disc tillage and no-tillage by 1.2–1.6 times. The maximum seed yield of 2.92–2.95 t/ha has been obtained in 8- and 5-fields rotations with the use of moldboard plowing. The lowest yields of sunflower seeds were in short-rotation crop rotations with a sunflower saturation of 50% in the structure of sown areas and permanent cultivation and amounted to: moldboard plowing—1.75–2.21 t/ha, disk tillage—1.57–2.01 t/ha, and no-tillage—1.49–1.95 t/ha. Given the urgency of supplying the global market with sunflower oil, in the future it is necessary to increase the concentration of sunflower in the structure of sown areas to 30-40% through the system of basic tillage, selection of resistant hybrids, and use of herbicides.

Published

2024

109. Role of Year-Round Plant Cover and AgroTechnical Measures on Arable Land for Improvement of Some Water-Physical Parameters of the Eutric Fluvisol

Author

Iliyana Gerasimova and Miladin Nazarkov

Subjects

intermediate crops, crop rotation, soil water-physical parameters, Science, Agriculture

Abstract

Intermediate crops used for plant cover or green manure affect a positive direction of different soil indicators: organic matter content, soil structure, reduced bulk density and soil strength, limit the risk of erosion, eventually leading to a reduction in soil and moisture losses. The purpose of the present study was to establish the role of year-round cover of arable land with crops of cereals and forage crops and agro-technical measures to improve some waterphysical parameters of Alluvial-meadow soil (Fluvisol) in crop rotations. The study was carried out in the experimental field of Tsalapitsa, Plovdiv at the experimental base of “N. Pushkarov” Institute of Soil Science, Agrotechnology and Plant Protection, using the standard block method. In the next crop rotation - maize (Zea mays, L.) – barley (Hordeum vulgare, L) – maize (Zea mays, L.), were included intermediate crops (winter and spring) grown for green mass before the main spring crop maize (Zea mays, L.). From the obtained results, it was found that when in сrop rotations were included winter precultures the risk of negative influence of climatic factors on the physical characteristics of the Eutric Fluvisol is reduced. Despite leaving the stubble from the pre-sowing crop, after spring mixture crops, there is an increase in the values of bulk density and soil strength. These results are probably due to the poor condition of the soil that was plowed in the spring and insufficient time to carry out the sowing. The study confirms the role of soil cultivation in improving the studied physical parameters - moisture content, bulk density, and soil strength.

Published

2024

110. The Content of Heavy Metals and Trace Elements in Different Soils Used under the Conditions of Homestead Plots and Field Agricultural Lands of Ukraine

Author

Serhii Razanov, Oleksii Alieksieiev, Olha Alieksieievа, Oksana Vradii, Kateryna Mazur, Vasyl Puyu, Antonina Piddubna, Mykola Povoznikov, Dmytro Postoienko, and Oleh Zelisko

Subjects

heavy metals, crop rotation, black soil typical medium loamy, gray forest medium loamy, sod-podzolic sandy loamy, field soil, homestead plots, Environmental technology. Sanitary engineering, TD1-1066, Environmental sciences, GE1-350

Abstract

The soils of agricultural lands of Ukraine have different features of use for growing agricultural crops. In particular, in the conditions of homesteads in urbanized areas, the use of soils is observed mainly for monoculture (extensive agriculture). Usually, such soils are used mainly for the cultivation of potatoes and a small amount of vegetable crops: beets, cucumbers, cabbage, tomatoes, carrots, parsley, dill, etc. Organic fertilizers and a small amount of mineral fertilizers are used to fertilize the soils of homestead plots. Polycultures (intensive agriculture) such as: sunflower, winter rapeseed, winter wheat, corn, barley, sugar beet, peas, etc. are grown under conditions of field crop rotation. With the creation of conditions for obtaining the maximum yield, mainly mineral fertilizers and a small amount of organic fertilizers are used. That is, these features of soil use to one degree or another can be reflected in the level of accumulation of heavy metals and trace elements in them. The content of heavy metals and trace elements in black soil typical medium loamy, sod-podzolic sandy loamy and gray medium loamy soils were investigated for their use in homestead plots and field crop rotation for growing various agricultural crops. A higher content of mercury, lead, cadmium, zinc and copper was found in black soil typical medium loamy, gray forest medium loamy and sod-podzolic sandy loamy soils in the conditions of homesteads compared to the soils of field crop rotations. The highest difference in the content of Pb, Hg, Cd, Zn, and Cu in the soils of homestead plots and field crop rotations was found in sod-podzolic sandy soil.

Published

2024

111. The nutritional benefits of maize-soybean rotational systems in the North-Western Free State, South Africa

Author

Melanie de Bruyn, Andrè Nel, and Johan van Niekerk

Subjects

Crop rotation, Maize, Nutrition, Soybean, Sustainable agriculture, Agriculture, Nutrition. Foods and food supply, TX341-641

Abstract

Abstract Background Malnutrition is one of the major health concerns, particularly in the developing and under-developed world. In South Africa, maize is produced as a staple food and is the primary food for most of the country’s population. The North-Western Free State which forms part of the Nala municipality in the Lejweleputswa district of South Africa is a main producer of the country’s maize. However, the area is known for its sandy soil which contains little organic material, silt and clay. Maize in this area is normally grown in monoculture but with a focus on sustainable agriculture has recently incorporated soybean. As a means of fighting malnutrition, the objective of this study was to determine the influence that soybean incorporation as a rotation crop has on the nutritional value of maize. Methods A trial was conducted on the farm Christinasrus in the North-Western Free State to compare the nutritional value of monoculture maize and maize in rotation with soybean over three consecutive seasons. Maize kernel samples were taken each season and its nutritional properties analyzed. Subsequent data were further analyzed using statistical analysis. Results Results showed that there was a seasonal effect on all nutritional properties with a general decrease in nutritional values in wetter years. Cropping systems had an effect on fibre content, with increased values observed in maize after soybean. In addition, there was a significant interaction between season and cropping systems on the total digestible nutritional value, with maize after soybean being more nutritious in wetter seasons. Conclusion Results suggest that maize in cropping systems with soybean has potential to be more nutritious while the soybean in the cropping system can act as a protein-rich companion, providing a more balanced diet for human consumption, thereby fighting malnutrition.

Published

2024

112. Restoration of soil fertility and improvement of phytosanitary condition of soil in short rotation of crops in Polissia of Ukraine

Author

Viktor Didora, Mykhailo Kliuchevych, Rasa Cingiene, Svitlana Stoliar, and Ihor Derebon

Subjects

crop rotation, crop residues, green manure, biological activity, soil, phytopathogens, Agriculture

Abstract

With the intensification of agricultural land use and changes in natural conditions, soil quality in Ukraine is deteriorating, with a decrease in humus content, the average annual loss of which is about 0.6 t/ha. Therefore, its reproduction is now becoming increasingly important through the use of organic raw materials and the introduction of legumes into the crop rotation, which leads to a partial replacement of nitrogen from mineral fertilisers with biological nitrogen. The purpose of this study was to find ways to provide the topsoil with organic residues, develop soil microflora, and improve the activity of nitrogen-fixing bacteria in a short grain legume crop rotation. The study was conducted in 2019-2023 using the following methods: visual – to determine the stages of organogenesis; field – to determine the interaction of abiotic factors; physiological – to determine the symbiotic fixation of atmospheric nitrogen. It was found that due to mineralisation of organic residues of legume crop rotation, the amount of macro- and microelements in the soil layers 0-10 cm, 10-20 cm, and 20-30 cm increased by 45.1-46.9-43.1 mg/kg, respectively. It was found that saturation of short crop rotation by 50% with legumes, straw residues, and green manure contributed to the reduction of pathogenic microorganisms and the growth of suppressive ones. It was found that in a short rotation of crops, 10.3 t/ha of organic matter in the form of stubble and root residues, straw and green manure enters the soil, which contributed to the cultivation of environmentally friendly agricultural products with the restoration of soil fertility. The biological activity of the soil during the growing season in the layer of 10-20 cm reached 47.4%, and the content of alkaline hydrolysed nitrogen in the rhizosphere of the root system increased by 43.9 mg/kg. The value of the study lies in the fact that the introduction of short organic crop rotations in farms of various forms of ownership is an innovative approach to providing light grey soils with organic raw materials, restoring and maintaining their fertility, improving their phytosanitary condition, promoting biodiversity, achieving environmental sustainability and high yields

Published

2024

113. Oat—an alternative crop under waterlogging stress?

Author

Pitann, Britta and Mühling, Karl H.

Subjects

ALTERNATIVE crops, OATS, AGRICULTURAL productivity, WATERLOGGING (Soils), CROP rotation, DEFICIENCY diseases

Abstract

Introduction: Waterlogging is one vast environmental constraint that limits crop growth and yield worldwide. Most major crop species are very sensitive to waterlogging, leading to enormous yield losses every year. Much is already known about wheat, barley or maize; however, hardly any data exist on oat and its tolerance against waterlogging. Thus, this study aimed to investigate if oats can be an adequate alternative in crop rotation under conditions of temporal submergence and if cultivar differences exist. Furthermore, this study was to test (1) whether yield was differently affected when stress is applied at different developmental stages (BBCH 31 and 51), and (2) nutrient imbalances are the reason for growth restrictions. Methods: In a large-scale container experiment, three different oat varieties were cultivated and exposed to 14 consecutive days of waterlogging stress at two developmental stages. Results: Even though vegetative growth was impaired after early waterlogging and which persists till maturity, mainly due to transient nutrient deficiencies, growth performance after late waterlogging and grain yield of all three oat varieties at maturity was not affected. A high tolerance was also confirmed after late waterlogging in the beginning generative stage: grain yield was even increased. Discussion: Overall, all oat varieties performed well under both stress treatments, even though transient nutrient imbalances occurred, but which were ineffective on grain yield. Based on these results, we conclude that oats, independently of the cultivar, should be considered a good alternative in crop production, especially when waterlogging is to be expected during the cultivation phase. [ABSTRACT FROM AUTHOR]

Published

2024

114. Rotation with other crops slow down the fungal process in tobacco-growing soil.

Author

Liu, Ming, Xue, Rujun, Yang, Chengwei, Han, Ningbo, Hu, Yanxia, Gu, Kaiyuan, Zhao, Jie, Guan, Shuyue, Su, Jiaen, and Jiang, Yonglei

Subjects

*CROP rotation, *FUNGAL communities, *SOIL fungi, *SOILS, *PHYTOPATHOGENIC microorganisms, *CHEMICAL properties

Abstract

Continuous cultivation of tobacco could cause serious soil health problems, which could cause bacterial soil to change to fungal soil. In order to study the diversity and richness of fungal community in tobacco-growing soil under different crop rotation, three treatments were set up in this study: CK (tobacco continuous cropping); B (barley-tobacco rotation cropping) and R (oilseed rape-tobacco rotation cropping). The results of this study showed that rotation with other crops significantly decreased the soil fungal OTUs, and also decreased the community richness, evenness, diversity and coverage of fungal communities. Among them, B decreased the most. In the analysis of the composition and structure of the fungal community, it was found that the proportion of plant pathogens Nectriaceae decreased from 19.67% in CK to 5.63% in B, which greatly reduced the possibility of soil-borne diseases. In the analysis of the correlation between soil environmental factors and fungal communities, it was found that Filobasidiaceae had a strong correlation with TP and AP, and Erysiphaceae had a strong correlation with TK and AK. NO3−-N and NH4+-N were the two environmental factors with the strongest correlation with fungal communities. The results of this study showed that rotation with other crops slowed down the process of soil fungi in tobacco-growing soil and changed the dominant species of soil fungi community. At the same time, crop rotation changed the diversity and richness of soil fungal community by changing the physical and chemical properties of soil. [ABSTRACT FROM AUTHOR]

Published

2024

115. Precrop-treated soil influences wheat (Triticum aestivum L.) root system architecture and its response to drought.

Author

Cope, Jonathan E., Berckx, Fede, Galinski, Anna, Lentz, Jonas, Nagel, Kerstin A., Fiorani, Fabio, and Weih, Martin

Subjects

DROUGHTS, WINTER wheat, CROP yields, ROOT development, ROOT growth, SOILS, CROP rotation, WHEAT

Abstract

Aims: Root system architecture (RSA) plays an important role in the plant’s ability to sustain yield under abiotic stresses such as drought. Preceding crops (precrops) can affect the yield of the proceeding crop, partially by affecting the RSA. This experiment aims to explore the interactions between precrop identity, crop genotype and drought at early growth stages. Methods: Rhizotrons, sized 60 × 80 × 3.5 cm, were used to assess the early root growth of two winter wheat (Triticum aestivum L.) genotypes, using precroptreated soil around the seedlings and differing water regimes. The rhizotrons were automatically imaged 3 times a week to track root development. Results: Precrop-treated soil affected the RSA and changes caused by the reduced water treatment (RWT) were different depending on the precrop. Largest of these was the 36% reduction in root depth after wheat, but 44% after OSR. This indicates that effects caused by the precrop can be simulated, at least partially, by transferring precrop-treated soils to controlled environments. The genotypes had differential RSA and reacted differently to the RWT, with Julius maintaining an 8.8-13.1% deeper root system compared to Brons in the RWT. In addition, the combined environmental treatment affected the genotypes differently. Conclusion: Our results could help explain discrepancies found from using precrops to enhance yield as they indicate differences in the preceding crop effect when experiencing drought stress. Further, these differences are affected by genotypic interactions, which can be used to select and adapt crop genotypes for specific crop rotations, depending on the year. Additionally, we have shown a viable method of stimulating a partial precrop effect at the seedling stage in a controlled greenhouse setting using field soil around the germinated seed. [ABSTRACT FROM AUTHOR]

Published

2024

116. Establishing an optimized ATAC-seq protocol for the maize.

Author

Jo-Wei Allison Hsieh, Pei-Yu Lin, Chi-Ting Wang, Yi-Jing Lee, Pearl Chang, Rita Jui-Hsien Lu, Pao-Yang Chen, and Chung-Ju Rachel Wang

Subjects

CROP improvement, PLANT adaptation, CHROMATIN, NUCLEOTIDE sequencing, CROP rotation, CORN

Abstract

The advent of next-generation sequencing in crop improvement offers unprecedented insights into the chromatin landscape closely linked to gene activity governing key traits in plant development and adaptation. Particularly in maize, its dynamic chromatin structure is found to collaborate with massive transcriptional variations across tissues and developmental stages, implying intricate regulatory mechanisms, which highlights the importance of integrating chromatin information into breeding strategies for precise gene controls. The depiction of maize chromatin architecture using Assay for Transposase Accessible Chromatin with high-throughput sequencing (ATACseq) provides great opportunities to investigate cis-regulatory elements, which is crucial for crop improvement. In this context, we developed an easy-toimplement ATAC-seq protocol for maize with fewer nuclei and simple equipment. We demonstrate a streamlined ATAC-seq protocol with four key steps for maize in which nuclei purification can be achieved without cell sorting and using only a standard bench-top centrifuge. Our protocol, coupled with the bioinformatic analysis, including validation by read length periodicity, key metrics, and correlation with transcript abundance, provides a precise and efficient assessment of the maize chromatin landscape. Beyond its application to maize, our testing design holds the potential to be applied to other crops or other tissues, especially for those with limited size and amount, establishing a robust foundation for chromatin structure studies in diverse crop species. [ABSTRACT FROM AUTHOR]

Published

2024

117. Identification of early, wilt resistant and good combining male lines of castor (Ricinus Communis L.,) suitable for rainfed conditions.

Author

Lavanya, C., Manjunatha, T., Senthilve, S., and Santhalakshmiprasad, M.

Subjects

*SEED yield, *CROP rotation, *CASTOR oil plant, *STATURE, *FUSARIUM

Abstract

Prolonged crop duration (150-210 days) and tall plant height (>100 cm) of castor either hinders its adaptability to newer and niche areas or fitting into the cropping sequence of conventional castor growing areas. The present study aims at evaluating male lines for their agro-morphological characters, combining ability for seed yield, yield components and resistance to Fusarium wilt. Node number to primary, first and second order of secondary (P, S1 and S2) racemes were taken as indicators of flowering and maturity duration of male lines while data on plant height up to primary spike was recorded for plant stature. Twenty-six improved monoecious lines were evaluated for their agro-morphological characters in an ARBD design along with three checks replicated five times during 2017-18 kharif season. Simultaneously all the 26 lines were screened for wilt resistance in wilt sick plot in two replications. Nineteen monoecious lines were resistant to wilt (0-20% wilt incidence) while four lines were moderately resistant to wilt (20-30%). Four lines viz., ICS-121, ICS-150, ICS-127 and ICS-139 were promising with significantly low node number to P, S1 and S2 order of racemes compared to early maturing check, DCS-9 (12.1, 5.8, 4.9). Eight male lines were significantly shorter than the very tall type checks, 48-1 and DCS-107 (>85 cm) while ICS-121 (57.5 cm) was on par with the medium statured check, DCS-9 (59.7 cm). Fifteen hybrids, generated by crossing three pistillate lines and five selected wilt resistant male lines in a line x tester design were evaluated along with eight parents and two hybrid checks during 2019-20 kharif season. SKP-84 (pistillate line) and ICS-139 (male line) were identified as good combiners for seed yield and majority of the yield components. [ABSTRACT FROM AUTHOR]

Published

2024

118. Effect of Different Pulse and Oilseed based Cropping Systems on Yield and Nutrient Budgeting under Rainfed Conditions of Jammu.

Author

Kumar, Rakesh, Sharma, B. C., Sharma, Neetu, Nanadan, Brij, Verma, Akhil, Banotra, Monika, and Mahajan, Amit

Subjects

*LEGUMES, *CROPPING systems, *CHICKPEA, *CROP yields, *CROP rotation, *SESAME, *BLACK gram, *MUNG bean, *OILSEEDS

Abstract

Background: Maize-wheat is the predominant cropping system of dryland ecology of Jammu region, but due to their comparatively higher input requirements especially of nutrients and water under the fragile ecology of these dry lands an untenable threat has been posed to their factor productivities. Therefore, all cropping sequences that suit and sustain better on the natural resources of the dryland ecosystems for a longer period of time needs to be explored. Methods: The treatments consisted of two oilseeds i.e. mustard) and gobhi sarson and two pulse crops i.e. chickpea and field pea taken during rabi were followed by two oilseed i.e. soybean and sesame and two pulse crops i.e. green gram and black gram grown during kharif. The experiment was laid out in randomized block design with four replications. Result: Significantly higher chickpea equivalent yield of green gram was observed with field pea-green gram sequence (10.26 q/ha) which was at par with the chickpea - green gram and field pea - black gram system. The available nitrogen status was significantly influenced and recorded highest (166.82kg/ha) under field pea-green gram system. Further overall nutrient mining by this system was quite low as compared to other systems. [ABSTRACT FROM AUTHOR]

Published

2024

119. The Impact of Different Phosphorus Fertilizers Varieties on Yield under Wheat–Maize Rotation Conditions.

Author

Liang, Chutao, Liu, Xiaoqi, Lv, Jialong, Zhao, Funian, and Yu, Qiang

Subjects

*PHOSPHATE fertilizers, *NITROGEN fertilizers, *FERTILIZER application, *CROPS, *CROP rotation, *WINTER wheat, *CORN, *ROTATIONAL motion

Abstract

The global phosphate (P) rock shortage has become a significant challenge. Furthermore, the misalignment between crops, soil, and P usage exacerbates P rock wastage in agriculture. The distinctions among various types of phosphorus fertilizers influence the phosphorus cycle, which subsequently impacts biomass, the number of grains per ear, the weight of a thousand grains, and, ultimately, the overall yield. In a four-year field experiment conducted from 2017 to 2021, we assessed the impact of various P fertilizer types on crop yield in a continuous wheat–maize rotation system. Prior to planting the crops, P fertilizers were applied as base fertilizers at a rate of 115 kg P2O5 ha−1 during the wheat season and 90 kg P2O5 ha−1 during the maize season. Additionally, nitrogen (N) was applied at rates of 120 kg ha−1 for wheat and 180 kg ha−1 for maize. The P fertilizers used included ammonium dihydrogen phosphate, ammonium polyphosphate, calcium–magnesia phosphate, ammonium phosphate, and calcium superphosphate. Urea was used as the N fertilizer with a split application—60% at planting and 40% at the jointing stage for wheat or the V12 (twelve leaf collar) stage for maize. The results showed that different P fertilizers increased the average yield of wheat and maize by 21.2–38.0% and 9.9–16.3%, respectively. It was found that ammonium polyphosphate, calcium superphosphate, and monoammonium phosphate were more suitable for application in a summer maize–winter wheat rotation system on loess soil. [ABSTRACT FROM AUTHOR]

Published

2024

120. Assessing Net Irrigation Needs in Maize–Wheat Rotation Farmlands on the North China Plain: Implications for Future Climate Scenarios.

Author

Wu, Yujin, Leng, Pei, and Ren, Chao

Subjects

*IRRIGATION, *CORN, *IRRIGATION water, *ROOT-mean-squares, *ROTATIONAL motion, *CROP rotation, *CROP growth

Abstract

Assessment of agricultural water requirements under future climate projections has received increasing attention in recent decades. The agriculture pattern of the semi-arid North China Plain is a maize–wheat rotation system in which sufficient irrigation is required to maintain production. In this study, the effects of future climate scenarios on the net irrigation requirement of the maize–wheat rotation system were assessed using the Food and Agriculture Organization crop growth model—AquaCrop. First, the baseline net irrigation requirement over the study region was obtained through AquaCrop simulation under ERA5-Land reanalysis from 2011 to 2020. In addition, the AquaCrop model was used to predict irrigation requirements in future scenarios (2021–2050) under the extreme-emission scenario of the Shared Socioeconomic Pathway SSP 5-8.5 (SSP 5-8.5). Finally, the predicted irrigation amount for maize and wheat during the period 2021–2050 under SSP 5-8.5 was compared with the baseline to assess the interannual change in irrigation water requirement. Results reveal significant agreement between the AquaCrop-derived daily soil moisture (SM) and a reference SM product with unbiased root mean square differences of 0.03 m3/m3 and 0.04 m3/m3 over maize and wheat, respectively. Furthermore, the median net irrigation requirement is expected to increase by approximately 107 mm (21%) to guarantee optimum yield. [ABSTRACT FROM AUTHOR]

Published

2024

121. Reaction of Stylosanthes spp. 'Campo Grande' to Pratylenchus brachyurus and Meloidogyne javanica and analysis of the histopathology and histochemistry of their interactions.

Author

Silva, M. T. R., Miamoto, A., Calandrelli, A., Rinaldi, L. K., and Dias-Arieira, C. R.

Subjects

*JAVANESE root-knot nematode, *PRATYLENCHUS, *HISTOCHEMISTRY, *ROOT-knot nematodes, *HISTOPATHOLOGY, *CROP rotation, *SOYBEAN cyst nematode

Abstract

In an integrated nematode management system, the best results are generally obtained by rotating crops with resistant plants, antagonists, or poor host of parasites. Some reports indicate that Stylosanthes spp. have the potential to control nematodes. Thus, this study aimed to assess the reaction of Stylosanthes spp. 'Campo Grande' to Pratylenchus brachyurus and Meloidogyne javanica penetration and reproduction at different inoculum levels and examine the histopathology and histochemistry of parasitized plants. Stylosanthes did not prevent P. brachyurus penetration in roots. However, the number of penetrated nematodes was lower than that in soybean from 17 days after inoculation onwards. The numbers of second-stage and third-/fourth-stage juveniles of M. javanica in Stylosanthes roots were close to zero, and no females were observed. Assays conducted using increasing levels of inoculum (P. brachyurus or M. javanica) showed that Stylosanthes was resistant to the parasites, with a maximum reproduction factor of 0.59 for P. brachyurus and 0.07 for M. javanica. Histopathological analysis showed the presence of P. brachyurus in Stylosanthes, but without rupture of plant cells. M. javanica individuals were not observed. Histochemistry revealed the presence of phenolic compounds in the epidermis of Stylosanthes and proteins in plant cells. These results show that Stylosanthes spp. 'Campo Grande' can be used in crop rotation programs in fields with mixed infestation of P. brachyurus and M. javanica. [ABSTRACT FROM AUTHOR]

Published

2024

122. Optimizing Soil Health and Sorghum Productivity through Crop Rotation with Quinoa.

Author

Li, Guang, Ren, Aixia, Anwar, Sumera, Shi, Lijuan, Bai, Wenbin, Zhang, Yali, and Gao, Zhiqiang

Subjects

*QUINOA, *CROP rotation, *SORGHUM, *CROPPING systems, *SOILS, *SOIL depth

Abstract

Crop rotation has been considered a potential solution to mitigate the negative effects of the continuous cropping of sorghum, including soil quality issues, inadequate plant development, and diminished yield and quality. A two-year field experiment was conducted to compare the effects of sorghum–sorghum continuous cropping and quinoa–sorghum rotation on soil properties and sorghum yield. The treatments were arranged in a randomized complete block design with three replicates. Sorghum seeds (Jinza 22) and quinoa seeds ('Jiaqi 1' variety) were used. Soil samples were collected before and during the experiment for the analysis of physicochemical properties. The yield traits of sorghum were measured at maturity. The results showed that soil nutrients and organic matter were higher in the top 0–20 cm soil depth compared to 20–40 cm depth, with significant differences observed between cropping systems. Sorghum–quinoa cropping increased soil total N and organic matter, particularly at the jointing and maturity stages of sorghum. However, the available phosphorus was higher under continuous cropping at all growth stages. Crop rotation significantly improved sorghum yield traits, including spike fresh weight, spike dry weight, grain weight per spike, and grain yield per hectare. A correlation analysis revealed positive relationships between soil total N, organic matter, and sorghum yield. Overall, sorghum–quinoa rotation demonstrated potential for improving soil fertility and enhancing crop productivity compared to continuous cropping, although further studies are needed to explore the long-term effects and optimize management practices. [ABSTRACT FROM AUTHOR]

Published

2024

123. Effects of no-till on upland crop yield and soil organic carbon: a global meta-analysis.

Author

Cui, Yufei, Zhang, Weiwei, Zhang, Yun, Liu, Xinmei, Zhang, Ye, Zheng, Xiaoying, Luo, Ji, and Zou, Junliang

Subjects

*CROP yields, *NO-tillage, *AGRICULTURAL conservation, *CONSERVATION tillage, *CARBON in soils, *UPLANDS, *CROP rotation

Abstract

Aims: No tillage (No-till, NT), a form of conservation agricultural management, can improve food security and alleviate world climate change by influencing crop yield and soil organic carbon (SOC), but the effects of NT on crop yields and SOC and the major factors which influence these effects remain poorly understood. Methods: We conducted a global meta-analysis using 5230 paired observations from 446 studies to evaluate the effects of NT on upland crop yield and SOC and to explore the associated influencing factors. Results: Generally, NT decreased upland crop yields by 5% (P < 0.05) and increased SOC sequestration by 9.9% (P < 0.05). Specifically, wheat and maize yields decreased by 7.7% and 2.3%, respectively. Our analyses indicate that NT combined with crop residue return and crop rotation reduced the negative effect of NT on crop yield from 5% to 2.44% and increased SOC up to 12.77%. The effects of NT on yield and SOC varied depending on the regulating factors. No-till increased yields in relatively arid areas, but reduced yields in more humid areas, whereas SOC is more likely to increase in humid regions. Soil organic carbon sequestration increased with temperature, but yield losses also increased in warmer regions. Conclusions: Our study suggests that NT combined with crop residue return and crop rotation could enhance SOC sequestration under moist and warm conditions without compromising crop yield. It may also improve soil quality and help alleviate global food security and climate change. [ABSTRACT FROM AUTHOR]

Published

2024

124. The importance of multi‐species grassland leys to enhance ecosystem services in crop rotations.

Author

Malisch, C. S., Finn, J. A., Eriksen, J., Loges, R., Brophy, C., and Huguenin‐Elie, O.

Subjects

*CROP rotation, *GRASSLANDS, *ECOSYSTEM services, *NITROGEN fertilizers, *AGRICULTURAL productivity, *SOIL quality, *PLATEAUS

Abstract

The ongoing simplification of agricultural production systems has resulted in several negative consequences, ranging from losses in soil organic carbon and biodiversity to a high dependency on external inputs to maintain high yields. We identify how grassland leys in crop rotations may help to mitigate these effects, by conserving soil organic carbon and enhancing nutrient efficiency. In particular, grasslands containing legumes enhance these benefits by providing nitrogen, and displacement of mineral N fertilizer. In crop rotations, these grasslands may transfer some of the acquired nitrogen to arable follow‐on crops, thereby reducing the necessity for external inputs, while at the same time providing additional benefits, such as improvement of soil quality and reduction of weed pressure. However, there are still considerable knowledge gaps about how to optimize the community composition of grassland leys to best enhance the supply of these ecosystem services. Although the benefits of multi‐species grasslands for the grassland crop have been shown repeatedly and across a large gradient of environments, further research is required to determine the benefits for follow‐on crops, particularly across different environmental conditions. Here, we emphasize the importance of multi‐site research, such as in the research network LegacyNet. Finally, we present management techniques that are optimized for both ecosystem services and agronomic performance in mechanically cut and grazed systems. For the latter, we consider how the inclusion of bioactive plant species can enhance animal health and lower methane emissions in grazing ruminants. [ABSTRACT FROM AUTHOR]

Published

2024

125. Incorporating landscape ecological approach in machine learning classification for agricultural land-use mapping based on a single date imagery.

Author

Danoedoro, Projo, Widayani, Prima, Hidayati, Iswari Nur, Kartika, Candra Sari Djati, and Alfani, Fitria

Subjects

*AGRICULTURAL mapping, *MACHINE learning, *CLASSIFICATION, *LANDSAT satellites, *LANDSCAPES, *CROP quality

Abstract

Land-use maps containing crop rotational information are very important in land management and physical planning. Such maps are usually generated using multitemporal data. Although recent technology allows analysts to process multitemporal information effectively, the use of single date imagery for such purpose is more efficient. This study aimed to map detailed agricultural land-use with crop rotational information based on a single date Landsat 8 imagery and SRTM-derived terrain attributes. A landscape ecological approach assuming the influence of terrain characteristics on the existence of crop and land-use types was implemented in multisource classification using random decision forest (RDF) machine learning algorithm. The use of seven optical bands and five terrain attributes could provide a land-use map at 88.03% accuracy, compared to seven optical bands only that generate 82.45% accuracy. These results are also better than those of maximum likelihood. The most influential variables in the achieved accuracy are elevation and thermal band. [ABSTRACT FROM AUTHOR]

Published

2024

126. 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

127. Whether Wheat–Maize Rotation Influenced Soil Organic Carbon Content in Sushui River Basin.

Author

Jing, Yingqiang, Bi, Rutian, Sun, Weifeng, Zhu, Hongfen, Ding, Haoxi, and Jin, Haixia

Subjects

CARBON in soils, WATERSHEDS, CROP rotation, CROPPING systems, ROTATIONAL motion

Abstract

Enhancing soil organic carbon (SOC) content in farmland is crucial for soil quality maintenance and food security. However, the relationship between crop rotation and SOC sequestration remains unclear. We used sample data on SOC, collected in September of every year, from cultivated land for quality monitoring from 2017 to 2021, combined with spatially extracted planting system information, and focused on the effects of wheat–maize crop rotation on SOC in the Sushui River Basin. An analysis of variance (ANOVA) indicated that the SOC content was only significantly different between wheat monoculture and maize monoculture. Among the three cropping systems, wheat–maize rotation did not show absolute superiority. The Geodetector analysis showed that the planting system dominated the spatial distribution of soil organic carbon (p = 0.05), but its explanatory factor was only 5%, and the explanatory power was significantly improved after interaction with other factors. Geographically weighted regression showed that wheat–maize rotation had a trade-off effect with elevation and synergistic effects with rainfall and pH. It displayed a synergistic effect with temperature in the southwest and a trade-off effect in the northeast. The degrees of trade-offs and synergy varied spatially among all interacting factors. We focused on the spatial heterogeneity of soil organic carbon in a small watershed, and the results had scientific significance for the layout of planting systems according to local conditions and the improvement in soil organic carbon levels. [ABSTRACT FROM AUTHOR]

Published

2024

128. Enhancing crop yields and farm income through climate-smart agricultural practices in Eastern India.

Author

Tanti, Purna Chandra, Jena, Pradyot Ranjan, Timilsina, Raja Rajendra, and Rahut, Dil Bahadur

Abstract

Climate-induced increase in temperature and rainfall variability severely threaten the agricultural sector and food security in the Indian state of Odisha. Climate-smart agricultural (CSA) practices, such as crop rotation and integrated soil management, help farmers adapt to climate risk and contribute to a reduction in greenhouse gas (GHG) emissions. Therefore, this paper examines the impact of CSA practices on yield and income in vulnerable semi-arid districts of Odisha—Balangir, Kendrapara, and Mayurbhanj. We use primary survey data from 494 households collected in 2019–2020, using a multi-stage stratified sampling approach and structured questionnaire. Propensity score matching (PSM) and the two-stage least square method (2SLS) have been used to analyze the impact of CSA on income and productivity. Two instrument variables, namely distance to the extension office and percentage of adopters in a village, are used to control self-selection bias and endogeneity in our model. Both models show a positive and significant impact of the adoption of CSA on farmers’ productivity and income. The study sheds light on the significant contribution of CSA practices in fostering sustainable income growth amid environmental challenges. Overall, our results suggest that small and marginal farmers of Eastern India, a highly environmentally vulnerable area, can significantly improve their income and productivity by adopting CSA technology. Hence, policymakers should scale the adoption of CSA technology through effective extension programs. [ABSTRACT FROM AUTHOR]

Published

2024

129. Resilience of Canola to Plasmodiophora brassicae (Clubroot) Pathotype 3H under Different Resistance Genes and Initial Inoculum Levels.

Author

Wen, Rui, Song, Tao, Tonu, Nazmoon Naher, Franke, Coreen, and Peng, Gary

Subjects

PLASMODIOPHORA brassicae, CANOLA, CLUBROOT, GENES, CROP rotation, RAPESEED

Abstract

In this study, we explored the resilience of a clubroot resistance (CR) stacking model against a field population of Plasmodiophora brassicae pathotype 3H. This contrasts with our earlier work, where stacking CRaM and Crr1rutb proved only moderately resistant to pathotype X. Canola varieties carrying Rcr1/Crr1rutb and Rcr1 + Crr1rutb were repeatedly exposed to 3H at low (1 × 104/g soil) and high (1 × 107/g soil) initial resting spore concentrations over five planting cycles under controlled environments to mimic intensive canola production. Initially, all resistant varieties showed strong resistance. However, there was a gradual decline in resistance over time for varieties carrying only a single CR gene, particularly with Crr1rutb alone and at the high inoculum level, where the disease severity index (DSI) increased from 9% to 39% over five planting cycles. This suggests the presence of virulent pathotypes at initially low levels in the 3H inoculum. In contrast, the variety with stacked CR genes remained resilient, with DSI staying below 3% throughout, even at the high inoculum level. Furthermore, the use of resistant varieties, carrying either a single or stacked CR genes, reduced the total resting spore numbers in soil over time, while the inoculum level either increased or remained high in soils where susceptible Westar was continuously grown. Our study demonstrates greater resistance resilience for stacking Rcr1 and Crr1rutb against the field population of 3H. Additionally, the results suggest that resistance may persist even longer in fields with lower levels of inoculum, highlighting the value of extended crop rotation (reducing inoculum) alongside strategic CR-gene deployment to maximize resistance resilience. [ABSTRACT FROM AUTHOR]

Published

2024

130. The Content of Heavy Metals and Trace Elements in Different Soils Used under the Conditions of Homestead Plots and Field Agricultural Lands of Ukraine.

Author

Razanov, Serhii, Alieksieiev, Oleksii, Alieksieievа2, Olha, Vradii, Oksana, Mazur, Kateryna, Puyu, Vasyl, Piddubna, Antonina, Povoznikov, Mykola, Postoienko, Dmytro, and Zelisko, Oleh

Abstract

The soils of agricultural lands of Ukraine have different features of use for growing agricultural crops. In particular, under the conditions of homesteads in urbanized areas, the use of soils is observed mainly for monoculture (extensive agriculture). Usually, such soils are used primarily for the cultivation of potatoes and a small amount of vegetable crops: beets, cucumbers, cabbage, tomatoes, carrots, parsley, dill, etc. Organic fertilizers and a small amount of mineral fertilizers are used to fertilize the soils of homestead plots. Polycultures (intensive agriculture) such as: sunflower, winter rapeseed, winter wheat, corn, barley, sugar beet, peas, etc. are grown under the conditions of field crop rotation. With the creation of conditions for obtaining the maximum yield, mainly mineral fertilizers and a small amount of organic fertilizers are used. That is, these features of soil use can be reflected to one degree or another in the level of accumulation of heavy metals and trace elements in them. The content of heavy metals and trace elements in black soil typical medium loamy, sod-podzolic sandy loamy and gray medium loamy soils were investigated for their use in homestead plots and field crop rotation for growing various agricultural crops. A higher content of mercury, lead, cadmium, zinc and copper was found in black soil typical medium loamy, gray forest medium loamy and sod-podzolic sandy loamy soils under the conditions of homesteads compared to the soils of field crop rotations. The highest difference in the content of Pb, Hg, Cd, Zn, and Cu in the soils of homestead plots and field crop rotations was found in sod-podzolic sandy soil. [ABSTRACT FROM AUTHOR]

Published

2024

131. Whisker Nucleation by Slip-Assisted Grain Rotation During Thermal Cycling.

Author

Wang, Congying, Cai, Xiaorong, Koslowski, Marisol, Blendell, John, and Handwerker, Carol

Subjects

THERMOCYCLING, NUCLEATION, DEFORMATION of surfaces, WHISKERS, GRAIN, ROTATIONAL motion, CROP rotation

Abstract

As a result of thermal cycling, polycrystalline tin films with a large in-plane grain size relative to film thickness on copper substrates show grain boundary (GB) sliding, creep, yielding, and nucleation of shallow grains that become whiskers. These microstructural changes occur near GBs, with different types of changes for different GBs. To understand these different phenomena, it is important to identify local microstructural changes and signatures of deformation mechanisms on free surfaces as deformation progresses, particularly in how they affect the formation of shallow grains. This study does that by characterizing the evolution of morphological, crystallographic, and curvature changes near GBs in large-grained Sn films during rapid thermal cycling. The observed responses include (1) nucleation of new grains accompanied by local yielding as indicated by slip band formation and grain misorientation changes, (2) GB sliding and diffusion, and (3) localized GB migration, with GB sliding and near-GB rotation occurring earlier than other phenomena. The angles between slip planes and observed slip traces suggested that dislocations moved along activated slip planes to form new GBs. These results on large-grained bicrystal films provide insights into the complex stress relaxation behavior of columnar polycrystalline tin films under the same thermal cycling conditions. [ABSTRACT FROM AUTHOR]

Published

2024

132. Crop Rotation and Nitrogen Fertilizer on Nitrate Leaching: Insights from a Low Rainfall Study.

Author

Bruno, Isabeli P., Araújo, Augusto G., Merten, Gustavo H., Ladeira, Audilei S., and Pinto, Victor M.

Subjects

NITROGEN fertilizers, CROP rotation, LEACHING, AGRICULTURAL conservation, SOIL solutions

Abstract

The intensive use of agricultural fertilizers containing nitrogen (N) can increase the risk of nitrate (NO3−) leaching. However, little information exists regarding its interaction with other factors that influence NO3− leaching, such as no-tillage, which is associated with different crop rotation schemes. The objective of this study was to quantify the leachate NO3− concentration and load below the root zone in two different crop rotations under no-tillage, with and without mineral N fertilizer. The experiment was conducted in a no-tillage area in Brazil between 2018 and 2020. The factors were two crop rotations (diversified and simplified) and two N fertilization managements (with and without N fertilizer). The soil solution was collected with suction lysimeters (1 m depth), the NO3− concentration (mg L−1) was spectrophotometrically determined, and the NO3− load (kg ha−1) was calculated from the volume of water drained and the NO3− concentration. The results were categorized into 24 evaluation periods. NO3− leaching was extremely low due to low rainfall throughout the experiment, with no significant differences between the factors and treatments. In the presence of N fertilization, leaching was substantially greater when rainfall increased, and vice versa. No significant difference was observed between the crop rotation schemes, except for one period in which the simplified soybean rotation exhibited high leaching. The evaluated treatments showed less NO3− leaching during the four periods when grass species were cultivated, indicating the importance of grasses in rotation systems. [ABSTRACT FROM AUTHOR]

Published

2024

133. Determination of Minimum Data Set for Soil Health Assessment of Farmlands under Wheat–Maize Crop System in Yanting County, Sichuan, China.

Author

Hussain, Zakir, Deng, Limei, Wang, Xuan, Cui, Rongyang, Li, Xueqin, Liu, Gangcai, Hussain, Ishtiaq, Wali, Farman, and Ayub, Muhammad

Subjects

PEARSON correlation (Statistics), SUSTAINABILITY, PRINCIPAL components analysis, SOILS, CORN, AGRICULTURAL productivity, CROP rotation, WHEAT

Abstract

The assessment of soil health through a robust index system having a sufficient number of indicators is an important step toward sustainable crop production. The present study aimed at establishing a minimum data set (MDS) from soil functional and nutritional attributes using a dual index system to evaluate the soil health of farmlands under wheat (Triticum aestivum)–maize (Zea mays) crop rotation in Yanting County, Sichuan, China. Farms from 10 villages in the study area were selected, out of which three sites were considered healthy/ideal sites and used as a reference for the remaining seven targeted sites, and soil samples were collected at depth of 20 cm from these farms. The MDS indicators were selected by using principal component analysis (PCA) followed by Pearson's correlation on 25 attributes. Based on significant values, eight attributes were retained in the final MDS, including the sucrase level, pH, wilting coefficient, water holding capacity, organic matter, NK ratio, total potassium, and available phosphorus. Based on the results, most of the farmland soils in Yanting County were in a healthy condition, accounting for 61.71% of the surveyed samples, followed by sub-healthy, degraded, and weak soils, accounting for 19.64%, 9.71%, and 8.93%, respectively. The values of most of the indicators at the targeted sites were significantly lower than those at ideal sites. Thus, specific steps should be taken by adding soil organic matter, combined with other fertilizers, to enhance the microbial biomass, enzymatic activities, and other biological activities in the soil. [ABSTRACT FROM AUTHOR]

Published

2024

134. Crop Rotation Management in the Context of Sustainable Development of Agriculture in Ukraine.

Author

Moldavan, Lubov, Pimenowa, Olena, Wasilewski, Mirosław, and Wasilewska, Natalia

Subjects

SUSTAINABLE agriculture, AGRICULTURAL development, CROP management, SUSTAINABLE development, SUSTAINABILITY

Abstract

This study investigates the implications of implementing simplified, highly specialized, non-rotational farming practices in Ukraine within the framework of sustainable development goals. The background highlights the need to address soil preservation and food security concerns in agricultural practices. The hypothesis suggests that such practices may lead to adverse environmental and socioeconomic consequences, including soil degradation and heightened reliance on imported agricultural products. The methods involve a comprehensive review of existing research, analyzing crop diversity, soil degradation, climate variability and agricultural employment dynamics using agroeconomic analytical methods. The results indicate adverse environmental ramifications associated with non-rotational practices, including soil degradation and heightened reliance on imported agricultural products. Conversely, transitioning towards crop rotation systems was found to potentially mitigate these outcomes by restoring soil fertility and enhancing food security. This study concludes that tailored crop rotation approaches are necessary to address soil health and food security concerns in Ukraine, thereby promoting sustainable agricultural development. Overall, the findings underscore the critical importance of implementing diversified crop rotation systems to achieve sustainable food production and environmental conservation goals in Ukraine and beyond. [ABSTRACT FROM AUTHOR]

Published

2024

135. Soil Organic Carbon Dynamics in the Long-Term Field Experiments with Contrasting Crop Rotations.

Author

Šimon, Tomáš, Madaras, Mikuláš, Mayerová, Markéta, and Kunzová, Eva

Subjects

CROP rotation, FIELD research, CARBON in soils, FARM manure, WHEAT, SUGAR beets

Abstract

Trends in soil organic carbon (SOC) were analyzed in the soils from the oldest Czech long-term field experiment, the Prague-Ruzyně Long-Term Fertilizer Experiment, conducted on Haplic Luvisol since 1955. The aim of the work was to compare the long-term dynamics of SOC in contrasting crop rotations and different fertilization regimes. The trial design includes two crop rotations (CR): simple CR with two-year rotation of sugar beet and spring wheat, and multi-crop rotation (MCR) with nine crops. Four fertilization treatments were chosen for SOC analysis: unfertilized control, only mineral fertilization (NPK), farmyard manure application (FYM), as well as FYM and NPK application. SOC content was significantly affected by both fertilization and crop rotation practices. In the simple CR, both the unfertilized control and the NPK treatment exhibited a consistent decline in SOC content over the study period, with percentages decreasing from an initial 1.33% in 1955 to 1.15% and 1.14%, respectively. Although the FYM and FYM + NPK treatments showed an increase in SOC content in the 1990s, a gradual decline was recorded in the last two decades. This decrease was not observed in MCR: positive C balances were recorded in all treatments within MCR, with the largest increase in SOC stock occurring when NPK was combined with FYM. In contrast, over the last decade, C balances have decreased in simple CR for all treatments except FYM. This trend coincides with changes in the local climate, particularly rising temperatures. The results indicate that diversified crop rotations and FYM fertilization are effective in mitigating the negative impacts of changing environmental conditions on SOC stocks. [ABSTRACT FROM AUTHOR]

Published

2024

136. Изучение патогенных факторов в зерновом сырье

Author

Михалева, Светлана Николаевна, Ульяненко, Лилия Николаевна, Зуева, Юлия Варисовна, Севостьянов, Михаил Анатольевич, Валиуллина, Дарья Александровна, Муковоз, Петр Петрович, Демин, Дмитрий Владимирович, Валиуллин, Ленар Рашитович, Барышев, Михаил Геннадьевич, Hernandez-Caceres, Jose L., Wei Xiao, Jabbarov, Zafarjon A., Patel, Nilanchal, Kováčik, Peter, and Wiłkomirski, Bogusław A.

Abstract

Copyright of Biogeosystem Technique is the property of Cherkas Global University Press and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

137. Early impacts of cover crop selection on soil biological parameters during a transition to organic agriculture.

Author

Ellman‐Stortz, Leah, Lewis, Katie, Gentry, Terry, DeLaune, Paul, Pierson, Elizabeth, and Boogades, Nicholas

Subjects

COVER crops, ORGANIC farming, CROP rotation, AGRICULTURAL policy, AGRICULTURE, CROP management

Abstract

Although Texas is not widely known for organic production, it is responsible for most organic peanut production in the United States. When managed effectively, this can be a lucrative practice due to consumer demands. However, farmers pursuing organic management must undergo a 3‐year transition period to obtain United States Department of Agriculture certification, which is often associated with depressed yields. The objective of this study was to measure the impact of organic management and cover crop selection on biological indicators of soil health during the second year of transitioning to an organic cotton–peanut rotation in West Texas. We conducted a field study at two locations, and soil health indicators including in situ respiration, carbon mineralization, enzyme activities, and phospholipid fatty acids (PLFAs) were measured. The use of a cover crop resulted in generally greater biological activities compared to the fallow after only one cover crop rotation, representing early elevated biological activities under plots treated with a cover crop. However, cover crop species selection typically does not affect soil biological parameters. Cover crop use also did not contribute to yield losses when compared to a fallow treatment. When comparing organic management to conventional management, both sites experienced elevated PLFA counts under organic management. Importantly, results indicated that although reduced peanut yields could be expected under transitional organic management, this was not cover crop species‐specific, nor was it a guarantee. Given the economic risk of organic management for farmers, this study will benefit producers deciding whether to pursue organic production and cover cropping. Core Ideas: Limited responses in soil health variables were observed under early transitional organic management.The cover crop type had little impact on responses to soil health variables during a transition to cover crop use.Soil health variables responded to the presence of cover crops in rotation during the transition to cover crop use. [ABSTRACT FROM AUTHOR]

Published

2024

138. Coal combustion residue for crop productivity in the semiarid US High Plains.

Author

Thapa, Vesh R., Maharjan, Bijesh, Blanco‐Canqui, Humberto, Lawrence, Nevin, Das, Saurav, Creech, Cody, and Hergert, Gary W.

Subjects

COAL combustion, CROP residues, HERBICIDE application, COMMON bean, BEETS, HERBICIDES, CROP rotation

Abstract

Carbon (C) amendments can enhance crop productivity, particularly in semiarid regions. Understanding the potential interference of C amendment with herbicide efficacies is essential to informing the practice. An experiment was conducted in western Nebraska in 2016–2018 to evaluate the effects of coal combustion residue (CCR) and herbicides on crop yields and weed density in the dry bean (Phaseolus vulgaris L.)–maizedb (maize [Zea mays L.] following dry bean)–sugarbeet (Beta vulgaris L.)–maizesb (maize following sugarbeet) rotation. All crop phases of the rotation were present each year and received CCR at varying rates (0, 3.3, 6.6, 13.1, and 19.7 Mg C ha−1) in spring 2016. Overall, CCR did not have consistent beneficial effects on crop yields. There were trends for yield benefits with CCR application compared to no‐CCR plots in dry bean (p = 0.066) and sugar beet (p = 0.155) in 2017 and maizedb in 2018 (p = 0.222). In 2016, among no‐herbicide treatments, the treatment with the highest CCR rate had a greater maizesb yield (16.2 ± 0.1 Mg ha−1) than the rest of the CCR treatments, including the control. The CCR application did not adversely affect herbicide efficacy in weed control. However, in 2016, among plots where herbicide (saflufenacil + dimethenamid‐p) was applied, the CCR treatment (6.6 Mg C ha−1) had lower maizesb yield than the control. Future research should consider factors such as application rates, methods, and timing to assess the potential adverse effects of C amendments on herbicide efficacies. Core Ideas: Coal combustion residue (CCR) had no consistent beneficial impacts on crop yield in 2 years.CCR benefits were contingent upon crop rotation or specific crop phase and year after application.A long‐term (>3 years) evaluation of CCR is warranted to assess its benefits over time.CCR and herbicide application rates, methods, and timing must be assessed to determine their effects on crop yield. [ABSTRACT FROM AUTHOR]

Published

2024

139. Soil health cycle.

Author

Maharjan, Bijesh, Das, Saurav, Thapa, Vesh R., and Sharma Acharya, Bharat

Subjects

SUSTAINABLE agriculture, TILLAGE, SOILS, CROP rotation, SCIENCE databases, SOIL management

Abstract

Soil health is pivotal to agricultural sustainability. Promoting and sustaining soil health management is challenging since it involves many interdependent components and steps and is an iterative process. Herein, the soil health cycle (SHC) is proposed as a soil health management cycle encompassing human dimensions, management practices, and their effects on soil health indicators (SHIs), leading to subsequent impacts on soil functions. The SHC provides a structure for an iterative testing of changes to improve soil health. A systematic review of research publications was also conducted using the Web of Science database supplemented by Elicit AI and Scopus API searches to determine the status of research reports connecting SHIs to soil function outcomes, a critical component in the SHC. The review focused on publications from 2000 to 2022 and highlighted that most soil health studies separately report the potential roles of soil health practices such as cover cropping, no‐tillage or reduced tillage, crop rotation, and crop–livestock integration in improving SHIs or soil function outcomes such as productivity and sustainability. The confidence in the causality of improved SHIs due to practices can be increased by demonstrably linking them to soil function outcomes such as productivity, environmental quality, and profitability. Presenting such evidence might allow us to tease confounding factors apart and present and contextually recommend soil health practices. It will also affect the human dimension in the SHC through informed and beneficial policies and incentives. Core Ideas: A very few studies reports soil health indicators and soil function benefits of practices simultaneously. Soil health cycle is a feedback cycle to achieve iterative soil health improvement.Soil health cycle integrates human dimension, practices, and their impacts on soil health and functions. [ABSTRACT FROM AUTHOR]

Published

2024

140. Improving rotational partners: Intraspecies variation for pea cover cropping traits.

Author

Marques, Edward, Kerwien, Lauren, Bueno, Erika, and Bishop‐von Wettberg, Eric

Subjects

COVER crops, CROP rotation, CROP yields, CORN, CULTIVARS, AGRICULTURAL ecology

Abstract

To improve cover crops such as peas (Pisum sativum), as rotational partners, intraspecific variation for cover cropping traits such as nutrient mobilization, carbon deposition, and beneficial microbial recruitment must be identified. The majority of research on cover crops has focused on interspecies comparisons for cover cropping variation with minimal research investigating intraspecies variation. To address if variation of cover cropping traits is present within a cover cropping species, we grew 15 diverse accessions (four modern cultivars, three landraces, and eight wild accessions) of pea in a certified organic setting. We measured various cover cropping traits, such as nutrient mobilization, soil organic matter deposition, and microbial recruitment, and quantified the effect of pea accession on the growth and yield of a subsequently planted crop of corn (Zea mays). We discovered that the domestication history of pea has a significant impact on soil properties. Specifically, domesticated peas (modern cultivars and landraces) had higher average plant–soil feedback values for amounts of nitrogen, carbon, and manganese compared to wild peas. Additionally, no variation for prokaryotic recruitment (α‐ and β‐diversity) was observed within pea; however, we did observe significant variation for fungal recruitment (α‐ and β‐diversity) due to domestication and accession. Our results demonstrate that there is variation present in peas, and likely all crops, that can be selected to improve them as rotational partners to ultimately boost crop yields in sustainable agroecosystems. Core Ideas: Crop rotation value is the impact one crop has on the subsequent crop mediated by plant‐soil feedback.Intraspecific variation in rotational value traits likely exists in many crops.Cover crops are selected to improve the yield of subsequent crops, yet very few studies on cover crops have examined the intra‐specific variation in traits that confer rotational value that breeders could select to make cover crops better at being cover crops. [ABSTRACT FROM AUTHOR]

Published

2024

141. Determining the optimum planting date × maturity group combination for soybean produced in South Carolina.

Author

Holladay, Sarah K., Plumblee, Michael T., Marshall, Michael W., Jones, Michael A., and Narayanan, Sruthi

Subjects

CROP yields, CROP rotation, PLANT populations, SOYBEAN farming, GRAIN yields, CROP insurance, SOYBEAN, PLANTING time

Abstract

Previous research has shown that delayed planting of soybean (Glycine max L. Merr.) can reduce yield by as much as 30 lb ac−1 day−1 when planted after mid‐June. In South Carolina, soybean is often planted in rotation with other crops or double‐cropped behind cereal grains, which can lead to delayed planting and potential yield‐loss. In this study, our objective was to determine the optimum planting date (PD) × maturity group (MG) combination on non‐irrigated soybean yield in South Carolina, and to determine yield results for the entire planting window ranging from March through August. Four MGs (IV, V, VI, and VII) were planted on six PDs (March–August) in 2021 and 2022 in Florence and Blackville, SC. Data collection consisted of stand counts to determine final plant populations, end‐of‐season plant height and node counts, and yield/moisture content at harvest. The April, May, and June PDs resulted in the highest grain yield in Blackville in 2021 (averaging 76 bu ac−1) and 2022 (averaging 42 bu ac−1). The April and May PDs had the highest grain yield in Florence when averaged over both years (53 bu ac−1). MG alone did not influence yield in Florence. However, MGs V, VI, and VII produced the highest yields in Blackville. The optimum PD × MG combination for yield was the May planted MG V in Blackville (88 bu ac−1 in 2021 and 49 bu ac−1 in 2022) and the April planted MG VII in Florence (65 bu ac−1). Plant heights and node counts were highest when soybean was planted in April and May, and MG IV had the tallest plants overall due to its indeterminate growth habit. Results from this study suggest that planting soybean as early as late‐March and as late as late‐June may not reduce soybean yield in South Carolina as some late‐March and late‐June MG combinations met or exceeded the state yield average of 37 bu ac−1 and did not differ statistically from April and May yields. This research has already impacted soybean growers in South Carolina as the crop insurance window for full coverage has been extended to include earlier and later PDs as of 2023. Plain Language Summary: Determining the optimum planting date (PD) and maturity group (MG) selection for soybean is essential to maximizing yield potential in non‐irrigated fields. A study was conducted in South Carolina to determine the optimum PD by MG interaction, results suggest that planting soybean from late‐April through late‐June optimized yield potential regardless of MG. Furthermore, MGs V–VII appear to provide maximum grain yield across this range of PD. [ABSTRACT FROM AUTHOR]

Published

2024

142. Multi-year crop rotation and quicklime application promote stable peanut yield and high nutrient-use efficiency by regulating soil nutrient availability and bacterial/fungal community.

Author

Liyu Yang, Caibin Wang, Xinhua He, Haiyan Liang, Qi Wu, Xuewu Sun, Miao Liu, and Pu Shen

Subjects

LIME (Minerals), CROP rotation, SOIL amendments, FUNGAL communities, PHOSPHORUS in soils, PEANUTS, SHIFTING cultivation, SOIL acidification

Abstract

Diversifying cultivation management, including different crop rotation patterns and soil amendment, are effective strategies for alleviating the obstacles of continuous cropping in peanut (Arachis hypogaea L.). However, the peanut yield enhancement effect and temporal changes in soil chemical properties and microbial activities in response to differential multi-year crop rotation patterns and soil amendment remain unclear. In the present study, a multi-year localization experiment with the consecutive application of five different cultivation managements (including rotation with different crops under the presence or absence of external quicklime as soil amendment) was conducted to investigate the dynamic changes in peanut nutrient uptake and yield status, soil chemical property, microbial community composition and function. Peanut continuous cropping led to a reduction in peanut yield, while green manure-peanut rotation and wheat-maize-peanut rotation increased peanut yield by 40.59 and 81.95%, respectively. A combination of quicklime application increased yield by a further 28.76 and 24.34%. Alterations in cultivation management also strongly affected the soil pH, nutrient content, and composition and function of the microbial community. The fungal community was more sensitive than the bacterial community to cultivation pattern shift. Variation in bacterial community was mainly attributed to soil organic carbon, pH and calcium content, while variation in fungal community was more closely related to soil phosphorus content. Wheat-maize-peanut rotation combined with quicklime application effectively modifies the soil acidification environment, improves the soil fertility, reshapes the composition of beneficial and harmful microbial communities, thereby improving soil health, promoting peanut development, and alleviating peanut continuous cropping obstacles. We concluded that wheatmaize-peanut rotation in combination with quicklime application was the effective practice to improve the soil fertility and change the composition of potentially beneficial and pathogenic microbial communities in the soil, which is strongly beneficial for building a healthy soil micro-ecology, promoting the growth and development of peanut, and reducing the harm caused by continuous cropping obstacles to peanut. [ABSTRACT FROM AUTHOR]

Published

2024

143. Incorporating leys in arable systems as a mitigation strategy to reduce soil organic carbon losses during land-use change.

Author

Kormla Nyameasem, John, De Los Rios, Josue, Kluß, Christof, Reinsch, Thorsten, Poyda, Arne, Taube, Friedhelm, and Loges, Ralf

Subjects

GRASSLANDS, CARBON in soils, ARABLE land, CLIMATE change mitigation, SANDY loam soils, CROP rotation, PLATEAUS

Abstract

The intensification of dairy and biogas production in Northwestern Europe has led to the conversion of permanent grasslands to arable land, mainly for silage maize production, resulting in significant soil organic carbon (SOC) losses, highlighting the need for implementing alternative management practices during land use change (LUC) for effective climate change mitigation. This study evaluated the impact of incorporating annual grass-clover leys in 3-year arable rotations and slurry application to mitigate SOC losses during LUC. We compared this approach to a continuous silage maize and a permanent grassland on sandy loam soil in Northern Germany. The experiments were simultaneously established at two adjacent 17-year-old sites of permanent grassland and arable cropping, with different levels of initial SOC when the experiment was established. The SOC dynamics in the upper soil layer (0-30 cm) were evaluated by annual 12-year sampling (2011-2022). The cropping systems were unfertilized (N0) or fertilized (N1) using cattle slurry at a rate of 240 kg N ha-1 year-1. The study reveals substantial SOC losses following the conversion of the permanent grassland to grass-clover (ley) based rotation or continuous silage maize, with reductions of 22% and 31%, respectively, compared to baseline levels of the permanent grassland. However, over the 12-year period, the grass-clover ley-based crop rotation demonstrated a 30% reduction in SOC losses compared to continuous silage maize, without compromising dry matter yield. Conversely, the conversion of arable land to grasslands led to SOC increases ranging from 10% to 30%. This recovery was only half the SOC losses observed in the grassland conversion for the same period, indicating a slow-in, fast-out effect during LUC. However, the transition from ley-containing forage rotation to continuous silage maize incurred significant SOC losses of 11%. Overall, these findings underscore the imperative of integrating ley phases to mitigate SOC losses, particularly in high-biomass- yield cropping systems. As a 1-year ley phase was insufficient to sustain carbon sequestration in arable crop rotations, extended ley residence times should be considered. [ABSTRACT FROM AUTHOR]

Published

2024

144. Short-term residual effects of occasional tillage on crop performance, soil water, and water-use efficiency in a 10-year no-till system under a dry Mediterranean climate.

Author

Diop, Massamba, Beniaich, Adnane, Cicek, Harun, Ouabbou, Hassan, Bamouh, Ahmed, El Gharras, Oussama, Dahan, Rachid, El Abidine, Aziz Zine, El Gharous, Mohamed, and El Mejahed, Khalil

Subjects

AGRICULTURAL conservation, WATER efficiency, MEDITERRANEAN climate, SOIL moisture, AGRICULTURE, SOIL classification

Abstract

Conservation Agriculture is a farming system based on no mechanical soil disturbance, permanent soil cover, and crop diversification. A study was carried out in an on-farm field trial set up in Meknes (Morocco) under a long-term notill (NT) system to evaluate the residual effect of one-time occasional tillage (OT) on crop performance, soil water, and water-use efficiency (WUE) one and two years after OT implementation. Shallow and deep options of OT were compared with common NT practices (with crop residue retention and with crop residue removal) for two consecutive seasons of 2021-2022 (year 1) and 2022-2023 (year 2). The four tillage practices were implemented in November 2020. Three crops were studied each year: durum wheat (Triticum durum), faba bean (Vicia faba minor), and chickpea (Cicer arietinum) all grown under NT in both the years and arranged in four crop rotations. Our findings show that grain yield of wheat and chickpea was negatively affected by OT for all years considered. In wheat, there was a grain yield loss of 18 and 20% for shallow and deep OT, respectively compared to NT with crop residue retention. In chickpea, the grain yield loss was as high as 47 and 49% for shallow and deep OT, respectively. Average soil water storage measured at 0-60 cm at sowing was also lower in deep OT (133 mm) compared to NT with crop residue retention (151 mm) for all years and rotations considered. Yet, in wheat year 1, deep OT slightly improved soil water content at 30 cm depth compared to NT treatments. The comparison of WUE between treatments showed that, under NT with crop residue retention, the crops produced more grain and aboveground biomass per mm of water. Wheat/faba bean rotation had a greater grain yield and WUE (all years considered) and overall greater soil water content (year 1), compared to the wheat/chickpea rotation. The results suggest that the effects of OT on crop performance and water productivity in the short term can be adverse. On the other hand, grain yield of wheat can be improved by a judicious choice of legume to be used as a preceding crop. [ABSTRACT FROM AUTHOR]

Published

2024

145. Combined Application of Leguminous Green Manure and Straw Determined Grain Yield and Nutrient Use Efficiency in Wheat–Maize–Sunflower Rotations System in Northwest China.

Author

Zhao, Na, Bai, Lanfang, Han, Dongxun, Yao, Zhiyuan, Liu, Xiaodong, Hao, Yaru, Chen, Zhipeng, Zhang, Xiaohong, Zhang, Dongrui, Jin, Xiaoling, and Wang, Zhigang

Subjects

GRAIN yields, STRAW, CORPORATE profits, SUSTAINABILITY, CROP yields, WHEAT straw, CROP rotation

Abstract

Leguminous green manure (LGM) has a reputation for improving crop productivity. However, little is known about the beneficial interactions with straw on crop yield and nutrient (N, P, K) use efficiency. Herein, a 9-year field experiment (from 2015 to 2023) containing three treatments—(1) chemical fertilizer as the control (CK), (2) NPK + straw return (Straw) and (3) NPK + straw return with LGM (Straw + LGM)—was conducted to investigate whether the combined application of LGM and straw can increase productivity and nutrient use efficiency in the wheat–maize–sunflower diversified cropping rotation. The results showed that in the third rotation (2021–2023), Straw + LGM significantly increased wheat yield by 10.2% and maize yield by 19.9% compared to CK. The total equivalent yield under Straw + LGM was the highest (26.09 Mg ha−1), exceeding Straw and CK treatments by 2.7% and 12.3%, respectively. For each 2 Mg ha−1 increase in straw returned to the field, sunflower yield increased by 0.2 Mg ha−1, whereas for each 1 Mg ha−1 increase in LGM yield from the previous crop, sunflower yield increased by 0.45 Mg ha−1. Compared to CK, the co-application of LGM and straw increased the N use efficiency of maize in the first and third rotation cycle by 70.6% and 55.8%, respectively, and the P use efficiency by 147.8% in the third rotation cycle. Moreover, Straw treatment led to an increase of net income from wheat and sunflower by 14.5% and 44.6%, while Straw + LGM increased the net income from maize by 15.8% in the third rotation cycle. Combining leguminous green manure with a diversified cropping rotation has greater potential to improve nutrient use efficiency, crop productivity and net income, which can be recommended as a sustainable agronomic practice in the Hetao District, Northwest China. [ABSTRACT FROM AUTHOR]

Published

2024

146. Challenges for crop diversification in cotton-based farming systems in India: a comprehensive gap analysis between practices and policies.

Author

Keller, Chigusa, Joshi, Smita, Joshi, Tanay, Goldmann, Eva, and Riar, Amritbir

Subjects

CROP diversification, AGRICULTURE, SUSTAINABLE agriculture, CROPPING systems, AGRICULTURAL marketing, AGRICULTURAL diversification, AGRICULTURAL conservation

Abstract

Introduction: Crop diversification is a promising practice to improve the sustainability of agricultural production systems, contributing to biodiversity conservation, ecosystem functions, and food security without compromising productivity. Although diverse cropping systems may be more labour-intensive and require good knowledge of the specific cropping system in the local context, they have high potential in managing many of the problems faced in current cotton production in India. However, the adoption of crop diversification is still moderate, with an overall crop diversification index (CDI) of 0.65 for all of India and state-wise CDI between 0.43 and 0.83. Methods: Therefore, a four-phased study was conducted to identify the main barriers to crop diversification in cotton-based farming systems in India and highlight levers that can foster their wide adoption to improve the livelihoods of smallholder farmers. The study was carried out between January to October 2020 and consisted of i) a literature review of regional and national policy and planning, ii) situational analysis with a problem tree approach, iii) individual stakeholder interviews with stakeholders from the broader Indian cotton sector, and iv) a participatory feedback workshop with said stakeholders. A total of 51 stakeholders from 24 different organizations were interviewed, 37 of them on technical aspects of crop diversification and 21 stakeholders on market and policy aspects. The same stakeholders were invited to the participatory feedback workshop, where 26 participated in the session on different benefits of crop diversification practices, and the session on market and policy challenges counted 24 participants. The study focused on the main organic cotton producing states in India: Gujarat, Madhya Pradesh, Maharashtra, Haryana, Odisha, and Andhra Pradesh. Results and discussion: In our study, it became evident that many policies and governmental schemes exist to promote national food security, sustainable agriculture, and agricultural marketing infrastructure, but crop diversification is still not gaining momentum on the ground. Various levers were identified in the areas of market and procurement, capacity building and knowledge transfer, supply industry and infrastructure, and farmers and women empowerment, where the current policy landscape is failing to foster crop diversification effectively on the farm level. [ABSTRACT FROM AUTHOR]

Published

2024

147. Sterile sentinels and MinION sequencing capture active soil microbial communities that differentiate crop rotations.

Author

Erlandson, Sonya R., Ewing, Patrick M., Osborne, Shannon L., and Lehman, R. Michael

Subjects

*CROP rotation, *MICROBIAL communities, *BACTERIAL communities, *SOILS, *STATISTICAL power analysis, *SOIL microbial ecology, *BIOMES

Abstract

Background: Soil microbial communities are difficult to measure and critical to soil processes. The bulk soil microbiome is highly diverse and spatially heterogeneous, which can make it difficult to detect and monitor the responses of microbial communities to differences or changes in management, such as different crop rotations in agricultural research. Sampling a subset of actively growing microbes should promote monitoring how soil microbial communities respond to management by reducing the variation contributed by high microbial spatial and temporal heterogeneity and less active microbes. We tested an in-growth bag method using sterilized soil in root-excluding mesh, "sterile sentinels," for the capacity to differentiate between crop rotations. We assessed the utility of different incubation times and compared colonized sentinels to concurrently sampled bulk soils for the statistical power to differentiate microbial community composition in low and high diversity crop rotations. We paired this method with Oxford Nanopore MinION sequencing to assess sterile sentinels as a standardized, fast turn-around monitoring method. Results: Compared to bulk soil, sentinels provided greater statistical power to distinguish between crop rotations for bacterial communities and equivalent power for fungal communities. The incubation time did not affect the statistical power to detect treatment differences in community composition, although longer incubation time increased total biomass. Bulk and sentinel soil samples contained shared and unique microbial taxa that were differentially abundant between crop rotations. Conclusions: Overall, compared to bulk soils, the sentinels captured taxa with copiotrophic or ruderal traits, and plant-associated taxa. The sentinels show promise as a sensitive, scalable method to monitor soil microbial communities and provide information complementary to traditional soil sampling. [ABSTRACT FROM AUTHOR]

Published

2024

148. Quantifying aboveground biomass, soil organic carbon and erosion with a detailed crop map and PESERA model in the Yangtze River Basin.

Author

Zhou, Jichen, Baartman, Jantienne, Ning, Yinan, Nunes, João Pedro, van Delden, Hedwig, Vanhout, Roel, Chen, Xinping, Ritsema, Coen, Ma, Lihua, and Liu, Xuejun

Subjects

*WATERSHEDS, *SOIL management, *SOIL erosion, *CARBON in soils, *EROSION, *CROPS, *CROP rotation, *PLANTATIONS

Abstract

Soil erosion represents a primary threat to soil systems with adverse implications for ecosystem services, crop production, potable water and carbon storage. While numerous studies have quantified the spatial distribution of aboveground Biomass (AGB), soil erosion and soil organic carbon (SOC) in the Yangtze River Basin (YRB), limited attention has been given to assessing the contributions of different land use types and especially crop types to AGB, soil erosion and SOC. In most studies, cropland is taken as a land use class, while detailed crop types and rotation patterns, and their effect on soil erosion and SOC, vary significantly. In this study, we used the Metronamica model to generate a detailed crop rotation and distribution map across the YRB and subsequently employed the Pan‐European Soil Erosion Risk Assessment (PESERA) model to simulate the spatial distribution of AGB, soil erosion and SOC on a monthly basis. PESERA model simulations indicate an average soil erosion rate across the entire YRB of 7.7 ton/ha/yr, with erosion hotspots concentrated in the Sichuan Basin and the central‐southern regions. The southwestern region and western Sichuan show elevated levels of AGB and SOC, while the eastern plains display lower levels. Erosion rates are lowest in areas designated as artificial land, pasture and grassland, whereas croplands and fruit tree plantations experience the highest erosion rates. In terms of crop types, the highest erosion rates and lowest AGB are observed under fallow and potato cultivation, while the lowest erosion rates and highest AGB are found in rice‐wheat rotation fields. To the best of our knowledge, this is the first study taking detailed crop types and patterns into account while evaluating their effect at a relatively large scale (i.e., YRB). These findings can help to develop sustainable soil management and (cropping) conservation strategies. [ABSTRACT FROM AUTHOR]

Published

2024

149. Effectiveness of soil management strategies for mitigation of N2O emissions in European arable land: A meta‐analysis.

Author

Valkama, Elena, Tzemi, Domna, Esparza‐Robles, Ulises Ramon, Syp, Alina, O'Toole, Adam, and Maenhout, Peter

Subjects

*SOIL management, *ARABLE land, *CROP residues, *SUSTAINABLE agriculture, *CROP rotation

Abstract

Soil management strategies involving the application of organic matter (OM) inputs (crop residues, green and livestock manure, slurry, digestate, compost and biochar) can increase soil carbon storage but simultaneously lead to an increase in non‐CO2 greenhouse gas (GHG) emissions such as N2O. Although multiple meta‐analyses have been conducted on the topic of OM input impacts on GHG, none has focused specifically on European arable soils. This study plugs this gap and can assist policymakers in steering European agriculture in a more sustainable direction. The objective of this meta‐analysis was to quantify how OM inputs of different nature and quality, but also the application strategy, can mitigate soil N2O emissions in different pedoclimatic conditions in Europe. We quantitatively synthesised the results of over 50 field experiments conducted in 15 European countries. Diverse arable crops, mainly cereals, were cultivated in monoculture or in crop rotations on mineral soils. Cumulative N2O emissions were monitored during periods of 30–1070 days in treatments, which received OM inputs, alone or in combination with mineral N fertiliser; and in controls fertilised with mineral N. The overall effect of OM inputs had a slight tendency to reduce N2O emissions by 10% (n = 53). With the increasing carbon‐to‐nitrogen ratio of the OM inputs, this mitigation effect became more pronounced. In particular, compost and biochar significantly reduced N2O emissions by 25% (n = 6) and 33% (n = 8) respectively. However, their effect strongly depended on pedoclimatic characteristics. Regarding the other types of OM inputs studied, a slight N2O emission reduction can be achieved by their application alone, without mineral N fertiliser (by 16%, n = 17). In contrast, their co‐application with mineral N fertiliser elevated emissions to some extent compared to the control (by 14%, n = 22). We conclude that amongst the seven OM inputs studied, the application of compost and biochar are the most promising soil management practices, clearly demonstrating N2O emission reduction compared to mineral N fertiliser. In contrast, other OM inputs had a small tendency to mitigate N2O emissions only when applied without mineral N fertiliser. [ABSTRACT FROM AUTHOR]

Published

2024

150. The Effect of Implementing 12/14 Day Harvest Rotation on FFB Production and Harvest Employee Income: Case Study at PT Nusaina Agro Kobi Manise.

Author

Memem, Jusri, Girsang, Wardis, and Damanik, Inta P. N.

Subjects

*CROP rotation, *COCONUT palm, *CROP yields, *FOREIGN exchange, *QUANTITATIVE research

Abstract

The policy regarding crop rotation is relatively new. However, this policy is still being debated, because it is not yet known that a consistent harvest rotation pattern has a significant effect on harvest premiums, FFB production and harvest employee income at PT Nusaina Agro Kobi Manise. This research aims to analyze the effect of 12/14 day harvest rotation and harvest premiums on FFB production and harvest employee income. This research uses quantitative descriptive methods. Data were analyzed using SmartPLS 3.0 Software. The results of the research show the effect of implementing 12/14 day harvest rotation and harvest premiums on FFB production and harvest employee income. It is clear that implementing 12/14 day harvest rotation does not have a direct influence on FFB production and harvest employee income but the implementation of 12/14 day harvest rotation days have an indirect influence through harvest premiums on production and harvest employee income. The t-calculated path coefficient value of 12.140 is greater than the t-table value of 1.96 with a p-value of 0.00 which is smaller than 0.05 so that the variable implementing 12/14 day harvest rotation has a significant effect on the harvest premium variable. The specific indirect effect value of implementing a 12/14 day harvest rotation has an effect on the harvest premium and in turn has an effect on FFB production with a calculated t-value of 2.500 which is greater than the t-table value of 1.96 and with a p-value of 0.013 which is smaller than 0.05 so can be said to have a significant effect. [ABSTRACT FROM AUTHOR]

Published

2024