Your search keyword '"Crop Rotation"' showing total 27,628 results

201. Restoring Soil Health of Degraded Lands Through Eco-Friendly Nutrient Management Practices in Regenerative Agriculture

Author

Baruah, Rashmi, Kumar, Sandeep, editor, Meena, Ram Swaroop, editor, Sheoran, Parvender, editor, and Jhariya, Manoj Kumar, editor

Published

2024

202. Traditional Agronomic Practices: Understanding and Mitigating the Risks of Climate Change

Author

Das, Kadambini, Yasheshwar, editor, Mishra, Anil Kumar, editor, and Kumar, Mukesh, editor

Published

2024

203. IoT in Adaptive Control Systems

Author

Salam, Abdul, Fortino, Giancarlo, Series Editor, Liotta, Antonio, Series Editor, and Salam, Abdul

Published

2024

204. Integrating Predictive Process Monitoring Techniques in Smart Agriculture

Author

Fioretto, Simona, Ienco, Dino, Interdonato, Roberto, Masciari, Elio, Appice, Annalisa, editor, Azzag, Hanane, editor, Hacid, Mohand-Said, editor, Hadjali, Allel, editor, and Ras, Zbigniew, editor

Published

2024

205. Development of Efficient Forecasting Models for Climate-Resilient Crop Rotation Based on Deep Learning Techniques

Author

Poonkuzhali, S., Akilesh, K. R., Arya, R. C., Kacprzyk, Janusz, Series Editor, Gomide, Fernando, Advisory Editor, Kaynak, Okyay, Advisory Editor, Liu, Derong, Advisory Editor, Pedrycz, Witold, Advisory Editor, Polycarpou, Marios M., Advisory Editor, Rudas, Imre J., Advisory Editor, Wang, Jun, Advisory Editor, Senjyu, Tomonobu, editor, So–In, Chakchai, editor, and Joshi, Amit, editor

Published

2024

206. Cropping Systems and Application of Models

Author

Ahmed, Mukhtar, Ahmad, Shakeel, Abbas, Ghulam, Hussain, Sajjad, Hoogenboom, Gerrit, Ahmed, Mukhtar, Ahmad, Shakeel, Abbas, Ghulam, Hussain, Sajjad, and Hoogenboom, Gerrit

Published

2024

207. Strengthening Crop Production in Marginal Lands Through Conservation Agriculture: Insights from Sub-Saharan Africa Research

Author

Nyambo, P., Malobane, M. E., Nciizah, Adornis Dakarai, Mupambwa, H. A., Nciizah, Adornis Dakarai, editor, Roopnarain, Ashira, editor, Ndaba, Busiswa, editor, and Malobane, Mashapa Elvis, editor

Published

2024

208. A Precision Agriculture Approach for a Crop Rotation Planning Problem with Adjacency Constraints

Author

Albornoz, Víctor M., Zamora, Gabriel E., Albornoz, Víctor M., editor, Mac Cawley, Alejandro, editor, and Plà-Aragonés, Lluis M., editor

Published

2024

209. SWAT Model Application for Predicting of Water Erosion of Kastanozems Under Different Land Uses

Author

Kercheva, Milena, Mitova, Milena, Stoinova, Vihra, Kuncheva, Gergana, Kolchakov, Viktor, Pisello, Anna Laura, Editorial Board Member, Hawkes, Dean, Editorial Board Member, Bougdah, Hocine, Editorial Board Member, Rosso, Federica, Editorial Board Member, Abdalla, Hassan, Editorial Board Member, Boemi, Sofia-Natalia, Editorial Board Member, Mohareb, Nabil, Editorial Board Member, Mesbah Elkaffas, Saleh, Editorial Board Member, Bozonnet, Emmanuel, Editorial Board Member, Pignatta, Gloria, Editorial Board Member, Mahgoub, Yasser, Editorial Board Member, De Bonis, Luciano, Editorial Board Member, Kostopoulou, Stella, Editorial Board Member, Pradhan, Biswajeet, Editorial Board Member, Abdul Mannan, Md., Editorial Board Member, Alalouch, Chaham, Editorial Board Member, Gawad, Iman O., Editorial Board Member, Nayyar, Anand, Editorial Board Member, Amer, Mourad, Series Editor, Çiner, Attila, editor, Barbieri, Maurizio, editor, Khan, Md Firoz, editor, Ugulu, Ilker, editor, Turan, Veysel, editor, Knight, Jasper, editor, Rodrigo-Comino, Jesús, editor, Chenchouni, Haroun, editor, Radwan, Ahmed E., editor, Kallel, Amjad, editor, Panagoulia, Dionysia, editor, Candeias, Carla, editor, Biswas, Arkoprovo, editor, Chaminé, Helder I., editor, Gentilucci, Matteo, editor, Bezzeghoud, Mourad, editor, and Ergüler, Zeynal Abiddin, editor

Published

2024

210. 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

211. 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

212. Agricultural diversification and its impact on enhancing farm income

Author

Das, Shaktiranjan and Darshan, N.P.

Published

2024

213. Enhanced soil carbon storage and arbuscular mycorrhizal fungal biomass in a long-term nutrient management under soybean-based cropping system

Author

Agnihotri, Richa, Pandey, Ashu, Sharma, Mahaveer P., Prakash, Anil, Ramesh, Aketi, Maheshwari, Hemant Singh, Verma, Rakesh Kumar, Nargund, Raghvendra, and Billore, Sunil Datt

Published

2024

214. Multistage Stochastic Optimization for Semi-arid Farm Crop Rotation and Water Irrigation Scheduling Under Drought Scenarios

Author

Mahdavimanshadi, Mahdi and Fan, Neng

Published

2024

215. Soil Phosphorus Dynamics under Long-Term No-Till with Offseason Intercropping Systems

Author

Rigon, João Paulo Gonsiorkiewicz, Vilela, Rafael Gonçalves, Teles, Ana Paula Bettoni, Bernart, Leila, Pavinato, Paulo Sérgio, Calonego, Juliano Carlos, and Crusciol, Carlos Alexandre Costa

Published

2024

216. 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

217. 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

218. Effect of crop rotation on nitrogen leaching with the lysimetric waters in vulnerable areas

Author

Ts. Simeonova, L. Nenova, M. Benkova, and M. Nenov

Subjects

loss of nitrates, crop rotation, infiltrate, intensive agriculture, Agriculture

Abstract

Abstract. Climate change is known to subject the functioning of agroecosystems to high levels of biotic and abiotic stress and has a significant impact on agricultural production worldwide. Crop rotation is believed to be one way of adapting agriculture to climate change compared to monoculture This study aimed to examine the maize-wheat rotation impact on soil nitrogen dynamics and leaching losses. A study has been carried out on the experimental field of Tsalapitsa, Plovdiv region on Fluvisol. In this maize-wheat rotation experiment, we compared three fertilization treatments with increasing nitrogen and phosphorus rates to a control with no fertilization. In 2020, grain maize (Zea mays L.) FAO group 310, was grown with fertilizer rates (T0N0P0; T1N120P80; T2N160P120; T3N200P160). In the period 2020/2021, wheat, (Triticum aestivum L.), was grown with the following fertilizer variants – (Т0 N0P0; Т1N100P60; Т2 N140P100; Т3 N180P140). The field plots were equipped with modification of Ebermayer type of lysimeters, which collect water from 100 cm depth of soil profile. The volume of lysimetric waters was calculated, the nitrogen content and its leaching were analyzed. The study found that the lysimetric water volume after maize cultivation was 75.95 liters per square meter, approximately 2.5 to 3 times higher than that observed after wheat cultivation. Nitrogen content varied with fertilization rates, ranging from 10.8 to 37.5 mg/L for maize and 8.73 to 23.58 mg/L for wheat. The losses of the element with drainage runoff with the first crop were – 5.6-28.5 kg.ha-1, and with wheat – 1.2-6.3 kg.ha-1, respectively. It was established that when cereal crops were grown the losses of nitrate nitrogen out of the root zone were significantly reduced.

Published

2024

219. The Impact of Pre-Crops on the Formation of Water Balance in Winter Wheat Agrocenosis and Soil Moisture in the Steppe Zone

Author

Vitalii Pichura, Larisa Aleksandrovna Potravka, Yevhenii Domaratskiy, Nataliia Nikonchuk, and Mykola Samoilenko

Subjects

water consumption, productivity, ndvi, satellite images, crop rotation, winter wheat, ndwi, productive moisture, Environmental technology. Sanitary engineering, TD1-1066, Environmental sciences, GE1-350

Abstract

Under climate change, the issue of selection and correction of crop cultivation systems in the zone of moisture deficit and risky farming to ensure profitability of production is still topical. In particular, crop rotations are a practice aimed at increasing resistance of soil systems to abiotic and biotic stresses in the zone of moisture deficit. Therefore, the purpose of the research is to identify spatio-temporal regularities of vegetative formation of water balance in winter wheat agrocenoses depending on a pre-crop according to the unified BBCH scale. Spatio-temporal processes of vegetation and water balance formation in winter wheat agrocenosis depending on a pre-crop according to the unified BBCH scale were examined on the basis of the data of decoded satellite image series of the spacecraft Sentinel and calculation of the NDWI and the NDVI values. The research was conducted in the natural-climatic conditions of the Steppe zone of Ukraine, in the territory of Yelanets district, Mykolaiv region, during the vegetative phase of winter wheat variety Driada 1: autumn 2021 and winter, spring and the beginning of summer 2022. It was established that activeness of water balance formation in winter wheat agrocenosis with pea as a pre-crop according to seasonal-phenological stages of plant growth is 3.0-9.0 times higher than with a grain crop (spring barley) and sunflower as pre-crops. In particular, with pea as a pre-crop, the NDVI vegetation of winter wheat plants is 1.6-1.7 times more intensive, the rate of moisture supply NDWI in the plant leaf at the macro-stages BBCH 10-61 is 1.54 and 1.82 times higher, productivity is 1.43-1.56 times higher. We observed a 30.5-34.3% reduction in water consumption for the formation of a ton of winter wheat grain with pea as a pre-crop in comparison with other pre-crops that resulted in an increase in productive moisture reserves at the end of vegetation in a meter soil layer by 20%. It was established that using pea as a pre-crop has economic and environmental benefits that manifest themselves in increasing resistance of soil systems, a reduction in environmental pollution and a rise in profitability of production.

Published

2024

220. 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

221. 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

222. Quantifying the rainfall variability effects on crop growth and production in the intensified annual forage - winter wheat rotation systems in a semiarid region of China

Author

Xingfa Lai, Yongliang You, Xianlong Yang, Zikui Wang, and Yuying Shen

Subjects

Rainfall variability, Crop rotation, Annual forages, Crop growth, Yield components, Agriculture (General), S1-972, Agricultural industries, HD9000-9495

Abstract

Replacing summer fallow period (July to September, SF) with annual short-season forages in the traditional fallow-winter wheat (Triticum aestivum L.) system may maintain grain yield and improve productivity in the semi-arid environments. But the uneven and variability rainfall led to instable productivity of the annual forage–winter wheat cropping system. The aims of this study were to 1) quantifying rainfall variability effects on annual forage–winter wheat system crop growing process and productivity; 2) determine the optimal annual forage–winter wheat production system that will response better to future climate change. A four-year (2016–2020) field experiment was conducted to investigate the impact of replacing summer fallow period with annual forages including oat (FO, Avena sativa L.), soybean (SB, Glycine max L.), and vetch (FV, Vicia sativa L.) on plant height (H), leaf area index (LAI), and above-ground biomass (AByield) growth index dynamics under three different levels of rainfall manipulation i.e. 30 % of ambient rainfall exclusion (R-30 %), natural rainfall (CK), and 30 % of ambient rainfall increase (R+30 %). Additionally, we assessed the correlations between forage and winter wheat production with growing season precipitation across 12 rainfall scenarios. Average forage biomass values of oat, soybean, and vetch were 5.50, 4.29, and 2.82 t ha−1, respectively during summer fallow period. The average winter wheat grain yield values in SF, FO, SB, and FV were 3.78, 3.12, 4.02, and 3.18 t ha−1, respectively. Integrating oat into fallow period had negative effects on wheat growth and production, and the H, LAI, and AByield for FO were 63.7 %, 50.9 %, and 29.9 % lower than SF in dry year, but the wheat grain yield in SB were 18.2 % and 24.8 % greater than SF in normal and wet years. Across the four growing seasons, the forage and wheat yields were shown to be strongly related to precipitation, and increasing precipitation significantly enhanced the production. In 2016–2017 growing season, LAI of wheat in SF, FO, SB, and FV with R+30 % scenario was increased by 30.2 %, 21.7 %, 32.7 %, and 19.8 % and that with R-30 % scenario decreased by 23.2 %, 17.8 %, 24.7 %, 16.5 % compared CK, respectively. The traditional summer fallow practice had advantage for maintaining stability in wheat gain production, especially under dry years. In consideration of forage and wheat production to rainfall variability, integrating soybean into fallow season may be an efficient option to maintain wheat yield and produce high forage amount under future climate change on the Loess Plateau and similar semi-arid regions.

Published

2024

223. 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

224. 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

225. 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

226. 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

227. 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

228. 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

229. 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

230. 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

231. 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

232. Metagenomic Analysis for Unveiling Agricultural Microbiome.

Author

Wang, Yao, Yu, Peng, and Liu, Yong-Xin

Subjects

*AGRICULTURE, *SCIENTIFIC knowledge, *SUSTAINABLE agriculture, *METAGENOMICS, *ANIMAL feeds, *INTERCROPPING, *CROP rotation

Abstract

This document discusses the importance of microbial communities in agriculture and the use of metagenomic analysis to understand and utilize the agricultural microbiome. Microorganisms in the soil, such as bacteria and fungi, play a crucial role in nutrient cycling, plant growth promotion, disease control, and resilience to environmental stresses. The document highlights various research papers that explore the impact of microorganisms on crop management, disease dynamics, and soil health. The findings emphasize the potential of metagenomic technologies in advancing sustainable farming practices and promoting ecological sustainability. The document also provides links to a special issue on the topic and invites further research contributions. [Extracted from the article]

Published

2024

233. Impacts of High-Frequency Chicken Manure Biochar Application on N 2 O and CH 4 Emissions from Vegetable Field in Subtropical China.

Author

Alami, Mohammad Jawad, Fang, Xuejuan, Zhong, Dongliang, Zhou, Weijun, Gao, Bing, Huang, Wei, and Cui, Shenghui

Subjects

*POULTRY manure, *BIOCHAR, *VEGETABLES, *CROP rotation, *FIELD research, *NITROUS oxide

Abstract

Vegetable production in Subtropical China is distinguished by excessive nitrogen (N) fertilization, frequent irrigation, and multiple crop rotations in a single year. The aforementioned variables are closely related to soil nitrous oxide (N2O) and methane (CH4) emissions. Hence, we conducted a field trial to measure N2O and CH4 emissions using static chamber–gas chromatograph. Four treatments were used: control (CK) with no fertilizer, 100% chemical N fertilization (CN), the conventional 30% chicken manure N plus 70%CN (CMN + CN), and 30% chicken manure biochar N plus 70%CN (CMBN + CN). The annual cumulative N2O emissions reached 12.4, 63.5, 111.8, and 44.1 kg N2O-N ha−1 for the CK, CN, CMN + CN, and CMBN + CN treatments, respectively. Compared to the CN and CMN + CN treatments, the CMBN + CN treatment reduced N2O emissions by 35.9%–65.7%, while it simultaneously increased the total vegetable yield by 16.1% compared to the CN treatment. Seven seasons mean N2O emission factors are 1.3% for CN, 3.8% for CMN + CN, and 0.9% for CMBN + CN. The CH4 emission was negligible, ranging from 0.07 kg CH4-C ha−1 for the CK treatment to 0.8 kg CH4-C ha−1 for the CN treatment. N2O emissions peaked under the conditions of an interior chamber temperature of around 31.9 °C and the water-filled pore space (WFPS) of the soil being approximately 60%. Future climate change will intensify, triggering higher N2O emissions from subtropical vegetable fields. CMB can be one of the best substitutes for direct chicken manure application as a soil supplement because it has a beneficial effect on improving vegetable yield and reducing N2O emissions in Subtropical China. [ABSTRACT FROM AUTHOR]

Published

2024

234. A COMPARISON OF YIELD PREDICTION APPROACHES USING LONG-TERM MULTI-CROP SITE-SPECIFIC DATA.

Author

Casanova, Joaquin, Heineck, Garett, and Huggins, David

Subjects

*FARMERS, *SOIL degradation, *CROP rotation, *INDEPENDENT variables, *DEEP learning, *CROPPING systems, *GEOLOGICAL statistics

Abstract

Growers in the inland Pacific Northwest face numerous challenges in managing cropping systems. Climate variability, soil degradation, and topography all lead to significant spatial and temporal variability in yield. Often, yield modeling approaches such as deep learning can be "black boxes" or suffer from parameter uncertainty and instability, as with process-based crop models. To explore an alternative, we examined nearly two decades of crop rotation data from the R.J. Cook Agronomy Farm, along with soil properties, topography, weather, and multispectral data. We then tested two modeling approaches to estimate yield: linear modeling (LM) and Bayesian hierarchical modeling (BHM). We found BHM with spatial and temporal random effects performed best in predicting relative yield, both using soil variables as predictors or remotely sensed data. Since the BHM approach handles missing data, offers the possibility of farmer knowledge to be incorporated into prior probabilities, and gives uncertainty, this methodology lends itself well to decision support tools and on-farm study design. [ABSTRACT FROM AUTHOR]

Published

2024

235. Quantifying the impacts of management and herbicide resistance on regional plant population dynamics in the face of missing data.

Author

Goodsell, Robert M., Comont, David, Hicks, Helen, Lambert, James, Hull, Richard, Crook, Laura, Fraccaro, Paolo, Reusch, Katharina, Freckleton, Robert P., and Childs, Dylan Z.

Subjects

*POPULATION dynamics, *PLANT populations, *HERBICIDE resistance, *WEED control, *HERBICIDES, *CROP rotation, *PHENOTYPIC plasticity

Abstract

A key challenge in the management of populations is to quantify the impact of interventions in the face of environmental and phenotypic variability. However, accurate estimation of the effects of management and environment, in large‐scale ecological research is often limited by the expense of data collection, the inherent trade‐off between quality and quantity, and missing data.In this paper we develop a novel modelling framework, and demographically informed imputation scheme, to comprehensively account for the uncertainty generated by missing population, management, and herbicide resistance data. Using this framework and a large dataset (178 sites over 3 years) on the densities of a destructive arable weed (Alopecurus myosuroides) we investigate the effects of environment, management, and evolved herbicide resistance, on weed population dynamics.In this study we quantify the marginal effects of a suite of common management practices, including cropping, cultivation, and herbicide pressure, and evolved herbicide resistance, on weed population dynamics.Using this framework, we provide the first empirically backed demonstration that herbicide resistance is a key driver of population dynamics in arable weeds at regional scales. Whilst cultivation type had minimal impact on weed density, crop rotation, and earlier cultivation and drill dates consistently reduced infestation severity.Synthesis and applications: As we demonstrate that high herbicide resistance levels can produce extremely severe weed infestations, monitoring herbicide resistance is a priority for farmers across Western Europe. Furthermore, developing non‐chemical control methods is essential to control current weed populations, and prevent further resistance evolution. We recommend that planning interventions that centre on crop rotation and incorporate spring sewing and cultivation to provide the best reductions in weed densities. More generally, by directly accounting for missing data our framework permits the analysis of management practices with data that would otherwise be severely compromised. [ABSTRACT FROM AUTHOR]

Published

2024

236. Potato yield and quality are linked to cover crop and soil microbiome, respectively.

Author

Hemkemeyer, Michael, Schwalb, Sanja A., Berendonk, Clara, Geisen, Stefan, Heinze, Stefanie, Joergensen, Rainer Georg, Li, Rong, Lövenich, Peter, Xiong, Wu, and Wichern, Florian

Subjects

*POTATO quality, *SUSTAINABLE agriculture, *COVER crops, *CROP rotation, *VEGETABLE oils, *SOIL microbiology, *WINTER wheat

Abstract

Crop-specific cultivation practices including crop rotation, cover cropping, and fertilisation are key measures for sustainable farming, for which soil microorganisms are important components. This study aims at identifying links between agronomic practices, potato yield and quality as well as soil microorganisms. We analysed the roles of cover crops and of the soil prokaryotic, fungal, and protistan communities in a long-term trial, differing in crop rotation, i.e. winter wheat or silage maize as pre-crop, presence and positioning of oil radish within the rotation, and fertilisation, i.e. mineral fertiliser, straw, manure, or slurry. Up to 16% higher yields were observed when oil radish grew directly before potatoes. Losses of potato quality due to infection with Rhizoctonia solani-induced diseases and common scab was 43–63% lower when wheat + oil radish was pre-crop under manure or straw + slurry fertilisation than for maize as pre-crop. This contrast was also reflected by 42% higher fungal abundance and differences in β-diversity of prokaryotes, fungi, and protists. Those amplicon sequence variants, which were found in the treatments with highest potato qualities and differed in their abundances from other treatments, belonged to Firmicutes (2.4% of the sequences) and Mortierellaceae (28%), which both comprise potential antagonists of phytopathogens. Among protists, Lobosa, especially Copromyxa, was 62% more abundant in the high potato quality plots compared to all others, suggesting that specific higher trophic organisms can improve crop performance. Our findings suggest that successful potato cultivation is related (1) to planting of oil radish before potatoes for increasing yield and (2) to fertilisation with manure or straw + slurry for enriching the microbiome with crop-beneficial taxa. [ABSTRACT FROM AUTHOR]

Published

2024

237. Spatial Extraction of Wheat-Corn Rotation Areas in Sushui River Basin Based on NDVI Differences in Key Phenological Stages.

Author

Yingqiang Jing, Hongfen Zhu, Shaofei Zhang, and Rutian Bi

Subjects

*MODIS (Spectroradiometer), *GRAIN farming, *WATERSHEDS, *ROTATIONAL motion, *CROP rotation, *WINTER wheat

Abstract

Dynamic monitoring of food cultivation status is important for guaranteeing food security and planning rational cultivation. Significant progress has been seen in crop classification using remote sensing data with high temporal resolution over large areas. However, improvement is needed for cultivation monitoring at the scale of small watersheds. This study combined high-temporal resolution moderate resolution imaging spectroradiometer (MODIS) data and high-spatial resolution Sentinel-2 data to identify key phenological stages of winter wheat and summer corn. MODIS data were used to construct indicators for differences in stages. Extraction thresholds for winter wheat and summer corn were determined using indicators for field sample sites. Different thresholds for key phenological stages were employed to determine the spatial distribution of these crops using Sentinel-2. The spatial distribution of winter wheat and summer corn rotation lands was generated using an overlay. User accuracies of the spatial extraction of wheat and corn rotation lands were 95%, 88.89%, and 86.96% for 2017-2018, 2018-2019, and 2019-2020, respectively (kappa coefficients: 74.24%, 54.47%, and 68.21%). The key phenological stage difference indicator method is suitable for crop classification and spatial extraction at the scale of small watersheds and can allow dynamic monitoring of grain crop cultivation in small-scale areas. [ABSTRACT FROM AUTHOR]

Published

2024

238. Crop rotational diversity can mitigate climate‐induced grain yield losses.

Author

Costa, Alessio, Bommarco, Riccardo, Smith, Monique E., Bowles, Timothy, Gaudin, Amélie C. M., Watson, Christine A., Alarcón, Remedios, Berti, Antonio, Blecharczyk, Andrzej, Calderon, Francisco J., Culman, Steve, Deen, William, Drury, Craig F., Garcia y Garcia, Axel, García‐Díaz, Andrés, Hernández Plaza, Eva, Jonczyk, Krzysztof, Jäck, Ortrud, Navarrete Martínez, Luis, and Montemurro, Francesco

Subjects

*CLIMATE change adaptation, *GRAIN yields, *CROP rotation, *CROPS, *CLIMATE change, *CROPPING systems, *MONOCULTURE agriculture

Abstract

Diversified crop rotations have been suggested to reduce grain yield losses from the adverse climatic conditions increasingly common under climate change. Nevertheless, the potential for climate change adaptation of different crop rotational diversity (CRD) remains undetermined. We quantified how climatic conditions affect small grain and maize yields under different CRDs in 32 long‐term (10–63 years) field experiments across Europe and North America. Species‐diverse and functionally rich rotations more than compensated yield losses from anomalous warm conditions, long and warm dry spells, as well as from anomalous wet (for small grains) or dry (for maize) conditions. Adding a single functional group or crop species to monocultures counteracted yield losses from substantial changes in climatic conditions. The benefits of a further increase in CRD are comparable with those of improved climatic conditions. For instance, the maize yield benefits of adding three crop species to monocultures under detrimental climatic conditions exceeded the average yield of monocultures by up to 553 kg/ha under non‐detrimental climatic conditions. Increased crop functional richness improved yields under high temperature, irrespective of precipitation. Conversely, yield benefits peaked at between two and four crop species in the rotation, depending on climatic conditions and crop, and declined at higher species diversity. Thus, crop species diversity could be adjusted to maximize yield benefits. Diversifying rotations with functionally distinct crops is an adaptation of cropping systems to global warming and changes in precipitation. [ABSTRACT FROM AUTHOR]

Published

2024

239. Exploring management strategies to improve yields and reduce reactive nitrogen emissions in a summer maize‐winter wheat cropping system under long‐term climate variability.

Author

Huang, Shaohui, Yang, Junfang, Xing, Suli, Yang, Wenfang, Yang, Yunma, Jia, Liangliang, and He, Ping

Subjects

*SUSTAINABLE agriculture, *CROP yields, *AGRICULTURAL productivity, *CROP rotation, *AGRICULTURE, *WINTER wheat, *CROPPING systems

Abstract

Achieving high stable crop yields and minimal environmental damage is crucial to enhance the sustainability of agriculture in China. Process‐based models are indispensable tools to develop agronomy management practices to achieve sustainable agriculture by simulating crop production and emissions of reactive nitrogen (N), particularly in complex climate scenarios. In this study, a long‐term field experiment with an intensive summer maize‐winter wheat rotation system in north‐central China was simulated using the DeNitrification‐DeComposition (DNDC) model. The DNDC model validation and calibration was done by using two‐year monitoring data of crop yields and nitrous oxide emission fluxes and ammonia volatilization. Moreover, the optimal management practices to promote crop production and reduce the reactive N loss under 22 years of climate variability were explored using the calibrated DNDC model in this region. The results showed that the DNDC model effectively simulated wheat and maize yields, N uptake, ammonia volatilization, and nitrous oxide emissions. Sensitivity analyses demonstrated that the agronomic management practices (N rates and ratio of base to topdressing, planting time, and tillage depth) substantially affected crop yields and reactive N losses under long‐term climate variability. Compared with current farming practices, optimal Nutrient Expert (NE) management achieved an increase in high yields and environmental pollution radiation by altering the rate of N application and ratio of base to topdressing. Moreover, the optimal management strategies developed by the DNDC model, such as adjusting the planting date and tillage depth, further increased the average grain yield by 2.9% and reduced the average reactive N losses by 10.5% compared with the NE management implemented in the annual rotation cropping with a 22‐year simulation. This study suggests that the modeling method facilitates the development of most effective agronomic management practices to promote crop production and alleviate the negative impact on environment. [ABSTRACT FROM AUTHOR]

Published

2024

240. Структурно състояние на типичния чернозем в агроценозите.

Author

Казюта, Алла, Казюта, Олександър, Дехтяров, Васил, and Пачев, Иван

Subjects

SOIL structure, CROP rotation, CULTURE, PLANT fertility, SOIL fertility, ARABLE land

Abstract

Structural soil is one of the foundations of agriculture. Cultivation, fertilization, irrigation and other agrotechnical measures of crop production affect it. Therefore, the study of the aggregate state of the soil provides information about the causes of changes in its composition, pore space, water, air and nutrient regimes, cultivation conditions and, in general, about the state of soil fertility and the conditions of plant growth and development. Chemical, physical and biological factors of an anthropogenic nature change the structural state of the soil. The structure of the soil is dynamic. Human economic activity leads to a decrease in the level of soil structure, which is especially clearly manifested in the case of low agricultural culture. Studies of the structural condition of the soil were carried out within the limits of field crop rotation. The soil is a typical chernozem on loamy loam. The structural condition of typical chernozem under arable land does not deteriorate and is evaluated from good to very good and excellent level with a high culture of agriculture, which is based on modern scientific developments. [ABSTRACT FROM AUTHOR]

Published

2024

241. Ertragsveränderungen vor dem Hintergrund der Klimakrise und Auswirkungen auf die Flächennutzung: Jahresbericht 2023 des Julius Kühn-Instituts und des Thünen-Instituts.

Author

Feike, Til, Attia, Ahmed, Bernhardt, Jacob-Jeff, Bittner, Marlene, Böhm, Jonas, Hackauf, Bernd, Hajjarpoor, Amir, Hausmann, Johannes, Jorzig, Christian, Kottmann, Lorenz, Krengel-Horney, Sandra, Kretschmer, Lars, Langhof, Maren, Ma, Donghui, Offermann, Frank, Osterburg, Bernhard, Riedesel, Ludwig, Sabboura, Dima, Schlich, Iven, and Schmitt, Jonas

Subjects

EXTREME weather, CLIMATE change, CROP rotation, SORGHUM, CORPORATION reports

Abstract

Copyright of Berichte aus dem Julius Kühn-Institut is the property of Julius Kuehn Institut 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

242. Using Beerkan Procedure to Estimate Hydraulic Soil Properties under Long Term Agroecosystems Experiments.

Author

Vergni, Lorenzo, Tosi, Grazia, Bertuzzi, Jennifer, Rossi, Giulia, Farneselli, Michela, Tosti, Giacomo, Tei, Francesco, Agnelli, Alberto, and Todisco, Francesca

Subjects

ORGANIC farming, CROP management, CROPPING systems, TILLAGE, COVER crops, CROP rotation, WINTER wheat

Abstract

The BEST (Beerkan Estimation of Soil Transfer parameters) method was used to compare the hydraulic properties of the soils in two Long-term Agroecosystem Experiments (LTAEs) located at the FIELDLAB experimental site of the University of Perugia (central Italy). The LTAE "NewSmoca" consists of a biennial maize-durum wheat crop rotation under integrated low-input cropping systems with (i) inversion soil tillage (INT) or (ii) no-tillage (INT+) and (iii) under an organic cropping system with inversion soil tillage (ORG). ORG and INT+ involve the use of autumn-sown cover crops (before the maize cycle). Pure stand durum wheat was grown in INT and INT+, while a faba bean–wheat temporary intercropping was implemented in ORG. The LTAE "Crop Rotation" consists of different crop rotations and residue management, a continuous soft winter wheat and biennial rotations of soft winter wheat with maize or faba bean. Each rotation is combined with two modes of crop residue management: removal or burial. For INT+, despite the high-bulk density (>1.50 g/cm3), we found that conductivity, sorptivity and available water are comparable to those of INT, probably due to a more structured and efficient micropore system. ORG soils show the highest conductivity, sorptivity and available water content values, probably due to the recent spring tillage occurring in the wheat inter-row with the faba bean incorporation into the soil. For LTAE Rotation, the residue burial seems to influence the capacity-based indicators positively. However, the differences in the removal treatment are minor, and this could be due to the inversion soil tillage, which limits the progressive accumulation of organic matter. [ABSTRACT FROM AUTHOR]

Published

2024

243. 多样化种植对提升耕地质量的作用: 进展与展望.

Author

田慎重, 管西林, 宁堂原, 孙 涛, 张玉凤, 边文范, 董 亮, and 高新昊

Published

2024

244. Effects of regional crop rotations on autumn insect pests in winter oilseed rape.

Author

Hausmann, Johannes, Heimbach, Udo, Gabriel, Doreen, and Brandes, Meike

Subjects

RAPESEED, PEST control, AUTUMN, CROP rotation, INSECT pest control, INSECT pests, OILSEEDS

Abstract

Background: Chemical control of insect pests in oilseed rape (OSR) is becoming increasingly difficult due to the development of resistance and restrictive insecticide approvals in Europe. At the same time, there is a lack of preventive and alternative control measures. Crop rotation mostly fails to control insects due to their mobility; however, changing regional cropping densities can dilute or concentrate pest pressure. In this study, we investigated whether the local occurrence of Psylliodes chrysocephala and Delia radicum, serious insect pests in winter OSR, is influenced by distance from the previous year's OSR fields and how changes in OSR rape cropping density at a regional scale (up to 10 km radius) affect pest pressure. Results: Abundance of P. chrysocephala in yellow water traps decreased with increasing distance to previous year's OSR. Estimated catches in the first 3 weeks of migration were about 68–76% lower at 10 km distance compared to 1 km in autumn 2019 and 2020. However, in both seasons P. chrysocephala was able to disperse over distances of 10 km. Probability of root damage by D. radicum was affected by changes of OSR cropping area at a spatial scale of 2.5 km radius; it increased if acreage of OSR decreased. Furthermore, aphid infestation was lower when OSR was distant in the previous year. Conclusion: This study could enable field‐specific risk assessment and prediction of pest pressure. To decide about the effectiveness of cropping breaks at a regional level as a preventive crop protection measure, more knowledge on other pest species and antagonists is needed. © 2023 The Authors. Pest Management Science published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024

245. The Influence of Cropping Systems and Tillage Intensity on Soil CO 2 Exchange Rate.

Author

Buivydienė, Agnė, Deveikytė, Irena, Veršulienė, Agnė, and Feiza, Virginijus

Abstract

In order to control the amount of greenhouse gas emissions from agriculture, it is necessary to select the appropriate crop rotation and tillage intensity depending on the soil type and climatic conditions. However, their implementation in agricultural management methods has been insufficient until now. The main objective of this study was to investigate the changes and dependences in soil net CO2 exchange rate (NCER) and main physico-chemical parameters under different tillage (conventional (CT) and no tillage (NT)) and crop rotation systems. Cropping systems significantly affected the amount of nutrients, but did not affect pH and organic carbon; otherwise, tillage vs. cropping systems had no significant effects on the soil chemical parameters analyzed. The data revealed that in NT treatments, the NCER was 28% higher than in CT. Different crop rotations also revealed a significant effect on NCER from the soil. Carbon dioxide fluxes increased in cropping systems where a higher share of catch crops were included. In NT systems, a comparatively higher soil moisture content was registered. In addition, the rotations with catch crops produced a higher (by 1–3%) soil moisture content. The temperature of the soil surface was not significantly affected by tillage or cropping systems; nevertheless, a trend towards higher soil surface temperatures in CT was determined, which might be affected by enhanced air circulation in the pores. Soil NCER increase correlated negatively with higher soil surface moisture content, while its relationship was positive with soil surface temperature increase. In general, soil surface temperature and moisture were the most significant factors in explaining the fluctuation in NCER from Cambisols in Lithuania under moderate climatic conditions. [ABSTRACT FROM AUTHOR]

Published

2024

246. Predictive model of stump regrowth in Eucalyptus globulus based on pre-harvest information.

Author

Gasparri, Pilar, Hirigoyen, Andrés, Rachid-Casnati, Cecilia, and Balmelli, Gustavo

Subjects

EUCALYPTUS globulus, PREDICTION models, EUCALYPTUS, CROP rotation, HARVESTING machinery, LOGISTIC regression analysis

Abstract

Summary: Eucalyptus species have a great capacity for regeneration after harvest, which allows a second rotation as a coppice crop. The decision whether to manage the next rotation as a coppice crop or to replant depends on the expected economic result of each alternative. The problem that foresters face is the difficulty of predicting the productivity in the next rotation, which will depend largely on the percentage of stumps that resprout. Therefore, the objectives of this work were: (i) to identify the preharvest variables that influence stump regrowth and (ii) to develop a model for predicting the probability of stump regrowth in commercial plantations of Eucalyptus globulus in Uruguay based on pre-harvest information. Thirty-three plots were established in commercial plantations, in which silvicultural management, growth and health status before harvest were recorded, as well as the number of stumps that sprouted after harvest. Significant differences were found in the percentage of resprout for the following variables: genetic material, type of harvest machine, proportion of trees with DBH > 14 cm, proportion of trees with bark cankers, proportion of trees with epicormic shoots, and proportion of trees with apical death. However, the logistic regression model adjusted to predict the probability of regrowth only included as explanatory variables the genetic material, the type of harvesting machine, the proportion of trees with DBH > 14 cm, and the proportion of trees with bark cankers. The use of this model will allow managers of E. globulus plantations to make more informed decisions for the next rotation. [ABSTRACT FROM AUTHOR]

Published

2024

247. Utilization of Rhodopseudomonas palustris in Crop Rotation Practice Boosts Rice Productivity and Soil Nutrient Dynamics.

Author

Sundar, Laurence Shiva, Yen, Kuei-Shan, Chang, Yao-Tsung, and Chao, Yun-Yang

Subjects

RHODOPSEUDOMONAS palustris, SOIL productivity, SOIL dynamics, CROP rotation, RICE, AGRICULTURE

Abstract

Using beneficial microorganisms, such as purple non-sulfur bacteria (PNSB), has shown enormous potential for improving plant growth and agricultural production. However, the full extent of their benefits and interactions with agricultural practices is yet to be fully understood. The present study aimed to investigate the use of PNSB in crop rotation practice, focusing on its impact on rice growth and yield. The experiment was conducted over two rice cropping seasons, with djulis grown between the rice as a rotation crop. The study shows that PNSB treatment increased the concentration of 5-aminolevulinic acid (5-ALA) in plants, indicating enhanced photosynthesis. Moreover, when combined with crop rotation, PNSB remarkably improved soil fertility. These combined benefits resulted in substantial increases in tiller numbers (163%), leaf chlorophyll content (13%), and lodging resistance (66%), compared to the untreated plants. The combined treatment also resulted in higher productive tillers per hill (112%), average grain per hill (65%), and grain fertility (26%). This led to increased grain yield (65%), shoot dry weight (15%), and harvest index (37%). The findings clearly suggest that the incorporation of PNSB in crop rotation strategies can significantly augment the growth and yield of rice crops. These insights, pivotal for sustainable rice cultivation, hold the potential to simultaneously tackle the pressing issues of global food security and climate change. [ABSTRACT FROM AUTHOR]

Published

2024

248. 棉花-花生轮作下的根系土壤细菌群落结构及功能分析.

Author

崔福洋, 侯献飞, 苗昊翠, 贾东海, 顾元国, 陈晓露, 李强, 施俊杰, 汪天玲, 高君, 胡凤仪, 宋贤明, 张云, 罗玉涛, 黄奕, 尚随腾, and 张帆

Subjects

COTTON growing, BACTERIAL communities, HEREDITY, PHYTOPATHOGENIC microorganisms, CROPPING systems

Abstract

Copyright of Chinese Journal of Oil Crop Sciences is the property of Oil Crops Research Institute of Chinese Academy of Agricultural Sciences 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

249. Factors Influencing the Emergence of Heterogeneous Populations of Common Bean (Phaseolus vulgaris L.) and Their Potential for Intercropping.

Author

Plestenjak, Eva, Meglič, Vladimir, Sinkovič, Lovro, and Pipan, Barbara

Subjects

COMMON bean, CATCH crops, ORGANIC farming, INTERCROPPING, POLLINATORS, CROP rotation

Abstract

The common bean is an important legume valued for its protein-rich seeds and its ability to fix nitrogen, making it a key element of crop rotation. In conventional agriculture, the emphasis is on uniformity and genetic purity to optimize crop performance and maximize yields. This is due to both the legal obligations to register varieties and the challenges of implementing breeding programs to create genetically diverse varieties. This paper focuses on the factors that influence the occurrence of heterogeneous common bean populations. The main factors contributing to this diversity have been described, including local adaptations, variable weather conditions, different pollinator species, and intricate interactions between genes controlling seed coat colour. We also discuss the benefits of intercropping common beans for organic farming systems, highlighting the improvement in resistance to diseases, and adverse environmental conditions. This paper contributes to a better understanding of common bean seed heterogeneity and the legal obligation to use heterogeneous populations. [ABSTRACT FROM AUTHOR]

Published

2024

250. Mixture of winter cover crops reduces surface runoff and sediment production under no‐tillage system for Oxisols.

Author

Fuentes‐Guevara, Miguel D., Spliethoff, Jhonatan, Camilo, Edson L., Neto, Ernani Garcia, Olanik, Chaiane, Pacheco, Amanda Alves, Ferreira, Rodrigo, Rampim, Leandro, Müller, Marcelo M. L., and Pott, Cristiano A.

Subjects

COVER crops, SOIL conservation, RUNOFF, SOIL management, NO-tillage, BEACHES

Abstract

One of Brazil's efficient soil and water conservation practices is the no‐tillage system (NTS). Nonetheless, erosion during rainfall still causes soil and water losses in this system. Therefore, this study aimed to assess surface runoff in different cultivation systems and sediment production during rainfall events. In macro‐plot 1 (non‐terraced catchment [NTC]), we adopted the NTS management with up‐ and down‐slope farming without including mechanical runoff control practices, which most regional producers use. In macro‐plot 2 (best management practices [BMPs]), we optimized crop rotation by incorporating a mixture of cover crop species in autumn and implemented contour farming practices. In macroplot 3 (terraced catchment [TC]), we adopted the same soil management practices as the NTC macroplot, including mechanical runoff control using broad‐based terraces. We used rainfall data to create hyetographs, hydrographs, and sedimentographs, aiming to evaluate the impact of management practices on surface runoff and sediment production. The surface runoff was reduced by 81% (BMPs) and 88% (TC) compared to the NTC system. There was also a reduction in suspended sediment concentration, around 33% (BMPs) and 63% (TC), compared to the NTC system. Despite conservation systems have shown effectiveness in reducing surface runoff and sediment production, monitoring these systems during periods not influenced by the La Niña phenomenon is necessary to assess the impact of rainfall events on soils with conservation practices in extreme events. The study findings provide guidance and recommendations for agricultural producers and field technicians globally, offering criteria for selecting optimal soil and water management practices in no‐till systems. This promotes a conservation‐oriented approach to agriculture. [ABSTRACT FROM AUTHOR]

Published

2024