Agronomy

19 pages, 1280 KiB

Open AccessArticle

Structure Optimization and Performance Simulation of a Double-Disc Fertilizer Spreader Based on EDEM-CFD

by Mingxiong Ou, Guanqun Wang, Ying Lu, Zhengji Zhang, Huijie Pan, Weidong Jia and Xiang Dong

Agronomy 2025, 15(5), 1025; https://doi.org/10.3390/agronomy15051025 - 24 Apr 2025

Abstract

To address practical issues, such as uneven fertilizer distribution and poor particle dispersion, during the operation of a centrifugal double-disc fertilizer spreader, a discrete element method (DEM) simulation was initially performed. In this simulation, the blade inclination angle, fertilizer discharge offset angle, and [...] Read more.

To address practical issues, such as uneven fertilizer distribution and poor particle dispersion, during the operation of a centrifugal double-disc fertilizer spreader, a discrete element method (DEM) simulation was initially performed. In this simulation, the blade inclination angle, fertilizer discharge offset angle, and spreading height were selected as experimental factors. The spreading width and the coefficient of variation (C_v) of fertilizer uniformity served as evaluation indicators. A quadratic orthogonal simulation experiment was designed to evaluate spreading performance. Subsequently, regression equations were established to optimize parameters and determine the optimal design configuration. Experimental results showed optimal performance with a blade inclination angle of −5°, fertilizer discharge offset angle of 45°, spreading height of 1050 mm, and disc rotational speed of 400 rpm. Considering that fertilizer spreaders are susceptible to air resistance and environmental wind during field operations, an EDEM-CFD coupling method was employed to simulate realistic operating conditions. Virtual simulation results demonstrated optimal fertilizer spreading performance at disc rotational speeds ranging from 350 to 400 rpm under tailwind conditions, and from 400 to 500 rpm under headwind conditions. Based on the simulation results, a prototype was built and tested. The experimental results closely matched the simulation predictions, thereby confirming the effectiveness of the simulation model. This study provides valuable insights and serves as a reference for designing and optimizing fertilizer spreader performance under practical operational conditions. Full article

(This article belongs to the Special Issue A Path for Circular Economy in Agriculture: From Organic Waste to Sustainable Energy and Soil Fertility)

14 pages, 2834 KiB

Open AccessArticle

Belowground Structural Attributes and Morpho-Anatomical Response Strategies of Bromus valdivianus Phil. and Lolium perenne L. to Soil Water Restriction

by Yongmei Zhang, Javier García-Favre, Haiying Hu, Ignacio F. López, Iván P. Ordóñez, Andrew D. Cartmill, Vaughan Symonds and Peter D. Kemp

Agronomy 2025, 15(5), 1024; https://doi.org/10.3390/agronomy15051024 - 24 Apr 2025

Abstract

The effect of soil water restriction on the root structure and morpho-anatomical attributes of Lolium perenne L. (Lp) and Bromus valdivianus Phil. (Bv) was investigated. The anatomical structure of roots from plants grown under two water restriction conditions (20–25% and 80–85% field capacity [...] Read more.

The effect of soil water restriction on the root structure and morpho-anatomical attributes of Lolium perenne L. (Lp) and Bromus valdivianus Phil. (Bv) was investigated. The anatomical structure of roots from plants grown under two water restriction conditions (20–25% and 80–85% field capacity (FC)) were assessed using paraffin embedding and thin sections. These sections were examined to assess anatomical traits, including root diameter (root D), stele diameter (stele D) and cortex thickness (cortex T), and xylem vessel of Lp and Bv roots. Tiller population, shoot herbage mass, and the shoot-to-root ratio were also determined. Under water restriction, biomass and tillers were significantly decreased (p < 0.001), while the root-to-shoot ratio significantly increased, indicating a higher proportion of Bv roots than shoots when compared to Lp. The root D and stele D, and cortex T, were larger in Bv than in Lp (p < 0.001), indicating a greater adaptation of Bv for water uptake and storage compared to Lp. Xylem vessels were wider in Lp when compared to Bv (p < 0.01), indicating greater water flow within the plant. Water restriction generated a decrease in root D, stele D, and cortex T (p < 0.01). Canonical variate analysis showed that the pith cell wall had a strong positive relationship with water restriction in both Bv and Lp; lignified xylem and the endodermis wall had a close relationship with Lp under water restriction. The findings demonstrate that Lp and Bv have individual structural and morpho-anatomical response strategies to increasing water restriction. Full article

(This article belongs to the Section Grassland and Pasture Science)

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12 pages, 2575 KiB

Open AccessArticle

Soil pH and Nutrient Stoichiometry as Key Drivers of Phosphorus Availability in Crop Rotation Systems

by Yi Yuan, Yi Zhu, Yichen Zhao, Meng Wang, Zhaoming Qu, Dongqing Lv, Yanli Liu, Yan Song, Tingting Wang, Chengliang Li and Haojie Feng

Agronomy 2025, 15(5), 1023; https://doi.org/10.3390/agronomy15051023 - 24 Apr 2025

Abstract

Crop rotation systems profoundly influence soil phosphorus (P) dynamics through physicochemical and microbial interactions. The mechanisms regulating P availability under various rotational practices remain poorly understood. This five-year field experiment investigated the effects of four rotation systems (WM: wheat–maize; WP: wheat–peanut; WS: wheat–soybean; [...] Read more.

Crop rotation systems profoundly influence soil phosphorus (P) dynamics through physicochemical and microbial interactions. The mechanisms regulating P availability under various rotational practices remain poorly understood. This five-year field experiment investigated the effects of four rotation systems (WM: wheat–maize; WP: wheat–peanut; WS: wheat–soybean; MV: maize–hairy vetch) on soil P fractions, phosphatase activities, P-cycling gene abundance, and their interactions with soil properties. The WM rotation substantially reduced soil pH (6.29) while increasing labile P fractions (Ca₂-P) and moderately labile P (Al-P, Fe-P, and Ca₈-P), which was attributed to enhanced acid phosphatase activity. The WP rotation elevated soil pH (8.13) but reduced P availability due to calcium–P immobilization. The MV rotation stimulated microbial P cycling, exhibiting the highest phoD (2.01 × 10⁶ copies g⁻¹) and phnK (33,140 copies g⁻¹) gene abundance, which was linked to green manure-induced microbial activation. Redundancy analysis identified soil pH, total nitrogen, and stoichiometric ratios (C/N and N/P) as key shared drivers of P fractions and enzymatic activity. Partial least squares path modeling (PLS–PM) indicated that crop rotation directly regulated P availability through pH modulation (r = −0.559 ***) and the C/N ratio (r = 0.343 ***) while indirectly regulating P fractions through phosphatase activity. Lower C/N ratios (<10) across all rotation regimes amplified the carbon limitation in the process of P transformation, indicating that exogenous carbon inputs and appropriate stoichiometry in the soil should be optimized. The results of this study inform the selection of suitable crop rotation patterns for sustainable agriculture. Full article

(This article belongs to the Section Innovative Cropping Systems)

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13 pages, 3842 KiB

Open AccessArticle

Marked Spatial Variability in Acidity Characteristics of Purple Soil at Field Scale Induced by Citrus Plantation

by Jiayi Luo, Jingkun Zhao, Jia Zhou and Zhongyi Li

Agronomy 2025, 15(5), 1022; https://doi.org/10.3390/agronomy15051022 - 24 Apr 2025

Abstract

Purple soil, predominantly found in the Sichuan Basin of China with a favorable climate, is renowned for its fertility, making it an ideal soil for citrus cultivation. To investigate the effect of citrus plantation on the acidification characteristics of purple soil, we selected [...] Read more.

Purple soil, predominantly found in the Sichuan Basin of China with a favorable climate, is renowned for its fertility, making it an ideal soil for citrus cultivation. To investigate the effect of citrus plantation on the acidification characteristics of purple soil, we selected one field where citrus trees coexist with varying ages of 3, 10, and 50 years. The soil is a neutral purple soil developed from Jurassic Shaximiao Formation mudstone. A total of 138 soil samples were collected at different depths (0–20, 20–40, and 40–60 cm) beneath the canopies of these citrus trees for physicochemical property analysis. Our results indicate that citrus cultivation caused significant spatial variability in the purple soil acidity within the same field. The pH values of these soils varied from 3.97 to 7.90. The degree of soil acidification under the citrus canopies adheres to the following order: 10-year-old > 50-year-old > 3-year-old citrus trees. Soil pH values were negatively correlated with the contents of N, P, and K available in the soil, particularly exhibiting a significantly negative correlation with these soil fertility indicators under the canopy of the 10-year-old citrus at p < 0.01, suggesting that the intensive fertilizer application typical in citrus plantations accelerated soil acidification. Additionally, soil acidification was associated with an increase in the exchangeable Al³⁺ (from 0 to 7.03 cmol kg⁻¹) and a decrease in the exchangeable Ca²⁺ (from 25.07 to 6.48 cmol kg⁻¹), exchangeable Mg²⁺ (from1.53 to 0.62 cmol kg⁻¹), base saturation (from 100% to 53.4%), and effective cation exchange capacity (from 24.3 to 13.1 cmol kg⁻¹).The acidification of the purple soil enhanced the extractability of metal elements, increasing the bioavailability of essential plant nutrients, such as Fe, Mn, Cu, Zn, and Ni, as well as enhancing the mobility of harmful heavy metals like Pb and Cd. In conclusion, unlike the widespread acidification observed in Oxisols or Ultisols at the field scale, citrus cultivation caused varying degrees of acidification within purple soil at this scale. This variability in soil acidification at the field scale of purple soil can lead to a series of soil degradation problems and should be given due attention in the management of citrus and similar high-economic-value fruit trees. Full article

(This article belongs to the Section Innovative Cropping Systems)

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15 pages, 1937 KiB

Open AccessArticle

Influence of Groundwater Depth on Salt Migration and Maize Growth in the Typical Irrigation Area

by Liping Dai, Qingfeng Miao, Haibin Shi, Zhuangzhuang Feng, Yuxin Li, Yong Liu, Yongli Xu, Rigan Xu and Weiying Feng

Agronomy 2025, 15(5), 1021; https://doi.org/10.3390/agronomy15051021 - 24 Apr 2025

Abstract

Groundwater depth has a significant impact on salinization in irrigated areas. In this study, different groundwater depths were controlled via pit tests and we conducted pit tests with different groundwater depths (DGWs) to investigate the relationship between irrigation water volume and salt migration [...] Read more.

Groundwater depth has a significant impact on salinization in irrigated areas. In this study, different groundwater depths were controlled via pit tests and we conducted pit tests with different groundwater depths (DGWs) to investigate the relationship between irrigation water volume and salt migration during the crop growth period, as well as the influence of DGW on maize growth and yield. The aim of this study was to determine an appropriate DGW for maize growth in the Hetao Irrigation District, the largest irrigation area of Asia, under the dual goals of water conservation and salt control. The results showed that the upward replenishment of groundwater was 179.60 mm, 139.17 mm, 119.98 mm, 68.62 mm, and 48.38 mm for each respective DGW, i.e., negatively correlated with DGW during the maize growth period. Soil electrical conductivity (EC) was exponentially related to DGW. For DGWs > 1.75 m, surface soil EC decreased significantly and soil EC exhibited less variation with DGW. Moreover, the desalination rate and depth after irrigation were improved at DGW values of 2.00 m and 2.25 m. Shallow DGW values resulted in increased evapotranspiration and intensified crop stress, which reduced water use efficiency. To reduce resource waste and salt stress on crops, we suggest that a DGW of 2.00~2.25 m is more suitable for maize growth and development. These results provide a reference for determining appropriate DGWs for maize growth in salinized irrigation areas. Full article

(This article belongs to the Section Farming Sustainability)

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11 pages, 1209 KiB

Open AccessArticle

The Influence of Management on the Content of Macro- and Microelements in Plant Shoots of a Meadow Sward of an Arrhenatheretalia Plant Community

by Daniel Pruchniewicz, Zbigniew Łobas, Agnieszka Dradrach and Ludwik Żołnierz

Agronomy 2025, 15(5), 1020; https://doi.org/10.3390/agronomy15051020 - 24 Apr 2025

Abstract

The concentrations of macro- and micro-nutrients in meadow swards should be influenced by habitat factors and by different meadow and pasture management methods. Therefore, the aim of the study was to learn about the ranges of macro- and micro-nutrient contents in selected species [...] Read more.

The concentrations of macro- and micro-nutrients in meadow swards should be influenced by habitat factors and by different meadow and pasture management methods. Therefore, the aim of the study was to learn about the ranges of macro- and micro-nutrient contents in selected species characteristic of mesic meadows, their sward and dead organic matter in relation to the concentrations in mountain soils and to different management methods. The study was conducted in the Central Sudetes (SW Poland) within meadow phytocoenoses representing the Arrhenatheretalia order managed in a mowing, mowing-pasture and fallowing manner. The studied species of dicotyledon herbs and grasses showed differences in the uptake of nutrients between those two plant groups, regarding such elements as phosphorus, potassium, calcium, magnesium and manganese. The comparison between forbs, grasses and the entire meadow sward revealed the highest contents of phosphorus, potassium, calcium, magnesium, zinc and copper were recorded in forbs, and the lowest in the sward. In the case of manganese, the inverse relationship was observed. The management methods did not have a strong influence on element concentrations in studied plant species and sward. Full article

(This article belongs to the Special Issue Weed Biology and Ecology: Importance to Integrated Weed Management)

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17 pages, 1818 KiB

Open AccessArticle

Tuber Growth and Nutritional Traits in Deficit Irrigated Potatoes

by Rosario Paolo Mauro and Anita Ierna

Agronomy 2025, 15(5), 1019; https://doi.org/10.3390/agronomy15051019 - 24 Apr 2025

Abstract

Knowledge of tuber growth and nutritional traits response of early potatoes to dynamic deficit irrigation is lacking. This study aimed to evaluate, over two growing seasons and using two potato cultivars (Arinda and Timate), the effects of five irrigation regimes on mean tuber [...] Read more.

Knowledge of tuber growth and nutritional traits response of early potatoes to dynamic deficit irrigation is lacking. This study aimed to evaluate, over two growing seasons and using two potato cultivars (Arinda and Timate), the effects of five irrigation regimes on mean tuber weight and nutritional profile (starch, dry matter, protein, reducing sugars, and ash content) during tuber growth and at final harvest. The irrigation treatments included I₀ (dry control), I₁₀₀ (100% ETm from tuber initiation to the end of tuber growth), I_100-0 (100% ETm until 50% of tuber growth, then no irrigation), I_100-50 (100% ETm until 50% of tuber growth, then 50% ETm), and I_100-75 (100% ETm until 50% of tuber growth, then 75% ETm). Regardless of cultivars and seasons, I_100-50 led to higher starch content and comparable mean tuber weight, dry matter, protein, reducing sugars, and ash contents compared to I₁₀₀, with a saving of irrigation water of about 800 m³ ha⁻¹ per season. Moreover, I_100-0 did not substantially modify mean tuber weight compared to I₁₀₀ but improved tubers’ nutritional profile by higher starch and dry matter contents and comparable values of reducing sugars and ash, providing a water saving of about 1500 m³ ha⁻¹ per season. The studied cultivars behaved similarly with respect to the irrigation regimes. In conclusion, it was possible to effectively apply dynamic deficit irrigation to save irrigation water without compromising tuber weight and nutritional traits. Full article

(This article belongs to the Special Issue Response Mechanism of Plants to Water in Efficient Water-Saving Irrigation Technologies)

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24 pages, 306 KiB

Open AccessArticle

Determination of the Effect of Organic Matter Addition to Mineral Soil on Nickel Detoxification in Radish, Its Yield, Nitrogen Metabolism and Chloroplast Pigments

by Kamil Misiak, Maciej Bosiacki and Magda Formela-Luboińska

Agronomy 2025, 15(5), 1018; https://doi.org/10.3390/agronomy15051018 - 24 Apr 2025

Abstract

Understanding soil properties that govern physicochemical and biological processes is essential for achieving high crop quality and yield. Organic matter is an important element of soil fertility and fertility in vegetable cultivation. In the process of decomposition of organic matter in the soil, [...] Read more.

Understanding soil properties that govern physicochemical and biological processes is essential for achieving high crop quality and yield. Organic matter is an important element of soil fertility and fertility in vegetable cultivation. In the process of decomposition of organic matter in the soil, humus of various quality is formed. The quality of humus depends on the content of individual acids (fulvic, humic and hymatomalanic acids) in it, which can affect the binding–chelation of heavy metals, limiting their availability to plants. The conducted studies determined the effect of adding organic matter (high peat, brown coal and wheat straw) to mineral soil on nickel detoxification in radish, its yield, nitrogen management and chloroplast pigments. The studies were conducted for three years in a greenhouse in a container system. The tested substrates were contaminated with nickel in the amount of 50, 75 and 100 mg dm⁻³. It was found that introducing organic matter into mineral soil can affect the reduction as well as the increase in nickel content in edible parts of radish. The type of organic material introduced into mineral soil as a source of organic matter has a significant impact on nickel content in radish. It was shown that nitrate reductase activity (NR) depends to a large extent on the substrate in which the plants are grown as well as on the applied dose of nickel. A similar relationship was demonstrated in the case of changes in the level of chloroplast pigments (chlorophyll a, chlorophyll b and carotenoids). Full article

(This article belongs to the Section Plant-Crop Biology and Biochemistry)

18 pages, 31118 KiB

Open AccessArticle

Effects of Downy Mildew Infection and Potassium on Growth and Physiological Traits of Greenhouse Cucumber

by Qiang Shi, Lu You, Yafei Wang, Xiaoxue Du and Tianhua Chen

Agronomy 2025, 15(5), 1017; https://doi.org/10.3390/agronomy15051017 - 24 Apr 2025

Abstract

Both abiotic and biological stresses reduce the quality and quantity of cultivated plants. In order to observe the response of cucumber plants to potassium stress and cucumber downy mildew infestation, two different levels of downy mildew infestation, B0 (disease infestation) and B1 (disease-free [...] Read more.

Both abiotic and biological stresses reduce the quality and quantity of cultivated plants. In order to observe the response of cucumber plants to potassium stress and cucumber downy mildew infestation, two different levels of downy mildew infestation, B0 (disease infestation) and B1 (disease-free infestation), and three fertilizer requirement levels of potassium fertilization, T1 (K-50%), T2 (K-100%) and T3 (K-150%), were applied in the greenhouse. Results show that the photosynthetic rate and stomatal conductance of cucumber plants leaves treated with B1T2 had an increasing trend, and the increase in stomatal conductance was more significant. The intercellular CO₂ concentration of cucumber leaves treated with B1T2 showed no significant difference. The plant height of cucumbers treated with B0T1, B0T2, B0T3, B1T1 and B1T3 decreased by 32.21%, 16.93%, 21.59%, 53.54% and 6.31%, respectively, compared with that treated with B1T2. The leaf area of cucumbers treated with B0T1, B0T2, B0T3, B1T1 and B1T3 decreased by 27.85%, 15.97%, 21.47%, 7.29% and 18.5%, respectively, compared with that treated with B1T2. The stem diameter of cucumbers treated with B0T1, B0T2, B0T3 and B1T1 decreased by 13.43%, 8.72%, 6.01% and 7.06%, respectively, compared with that treated with B1T2. The stem diameter of cucumbers treated with B1T3 increased by 6.83% compared with that treated with B1T2. The root total length, root surface area, root average diameter, root total volume and total root tips of cucumber plants were significantly different under different experimental conditions (p < 0.05). This study provides a theoretical basis for cucumber stress resistance cultivation in greenhouses and has important practical significance to ensure the sustainable development of the greenhouse cucumber industry. Full article

(This article belongs to the Section Pest and Disease Management)

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15 pages, 2138 KiB

Open AccessArticle

Response of Yield and Protein Content of Forage Mulberry to Irrigation in North China Plain

by Yujie Ren, Guang Guo, Zhaohong Wang, Lin Zhu and Bing Geng

Agronomy 2025, 15(5), 1016; https://doi.org/10.3390/agronomy15051016 - 23 Apr 2025

Abstract

Mulberry (Morus spp.) is resilient to water deficit conditions, and the high protein content of its leaves means they can be used as forage. Therefore, it could be a valuable resource for alleviating the animal feed crisis, but it is crucial that [...] Read more.

Mulberry (Morus spp.) is resilient to water deficit conditions, and the high protein content of its leaves means they can be used as forage. Therefore, it could be a valuable resource for alleviating the animal feed crisis, but it is crucial that its high productivity and stable traits are sustained to achieve this. We conducted a 2-year field experiment in the North China Plain (NCP), which investigated different irrigation levels (W1 = 15 mm, W2 = 30 mm) and genotypes (Feng Yuan No. 1, Feng Chi). This study demonstrates that using water-saving irrigation coupled with selected genotypes can increase the leaf yield and protein content. We measured various physiological and ecological indicators of mulberry, including the leaf area, fresh leaf weight, dry leaf weight, net photosynthetic rate, leaf water use efficiency (WUE_L) under limited irrigation, protein content, and yield. The results from both years indicate that, under deficit irrigation conditions, Feng Yuan No. 1 exhibited drought resistance while maintaining relatively high and stable growth traits. When the irrigation amount was increased (W2 = 30 mm), the net photosynthetic rate and leaf water use efficiency of Feng Yuan No. 1 were significantly better than those of Feng Chi. Additionally, Feng Yuan No. 1 combined with the W2 irrigation treatment led to a higher protein content of leaves (19.98 g/100 g and 21.19 g/100 g) and greater yield of leaves and branches (9.79 t·ha⁻¹ and 11.19 t·ha⁻¹) in the two years. Furthermore, under deficit irrigation conditions, Feng Yuan No. 1 effectively compensated for yield losses caused by water scarcity. Full article

(This article belongs to the Section Water Use and Irrigation)

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21 pages, 14766 KiB

Open AccessReview

Progress and Challenges in Research on Key Technologies for Laser Weed Control Robot-to-Target System

by Rui Lu, Daode Zhang, Siqi Wang and Xinyu Hu

Agronomy 2025, 15(5), 1015; https://doi.org/10.3390/agronomy15051015 - 23 Apr 2025

Abstract

The development of precise and sustainable agriculture has made non-chemical, highly selective laser weed control technology a hot research topic. The core of this technology lies in the overall performance of the targeting system, which consists of three key technologies, namely, target identification, [...] Read more.

The development of precise and sustainable agriculture has made non-chemical, highly selective laser weed control technology a hot research topic. The core of this technology lies in the overall performance of the targeting system, which consists of three key technologies, namely, target identification, dynamic positioning, and precise removal, which are interrelated and jointly determine the overall performance of the weed control system. In this paper, the key technologies of the targeting system are systematically analyzed to clarify the coupling relationship among the technologies and their role in performance optimization. This review systematically compares the mainstream recognition algorithms for the needs of laser weeding for specific parts, reveals the performance bottleneck of the existing algorithms in the laser weeding environment, and points out new research directions, such as developing weed apical growth zone recognition algorithms. The influence of laser beam control technology on weeding accuracy is analyzed, the advantages of vibroseis technology are explored, and the applicability problems of existing vibroseis technology in farmland environments are revealed, such as the shift of irradiation point caused by ground undulation. The key laws of laser parameter optimization are summarized, guiding the optimal design of the system. Through the systematic summary and in-depth analysis of the related research, this review reveals the key challenges facing the development of laser technology. It provides a prospective outlook on the future research direction, aiming to promote the development of laser weed control technology in terms of high efficiency, precision, and intelligence. Full article

(This article belongs to the Special Issue Harnessing Sensing, Artificial Intelligence, and Robotics for Digital Agriculture)

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15 pages, 3953 KiB

Open AccessArticle

Improvement of Rice Salt Tolerance by Pyramiding Two Genes in Xian and Geng Backgrounds Through CRISPR-Cas9 System

by Zhihu Ding, Laiyuan Zhai, Kai Chen, Fan Zhang, Xianjin Qiu and Jianlong Xu

Agronomy 2025, 15(5), 1014; https://doi.org/10.3390/agronomy15051014 - 23 Apr 2025

Abstract

Salinity is one of the main environmental factors influencing rice production. Many genes affecting salt tolerance (ST) have been cloned in rice so far. In the present study, four genes negatively regulating ST, including HST1, LRRK1, STRK2, and PC1, [...] Read more.

Salinity is one of the main environmental factors influencing rice production. Many genes affecting salt tolerance (ST) have been cloned in rice so far. In the present study, four genes negatively regulating ST, including HST1, LRRK1, STRK2, and PC1, were edited by CRISPR-Cas9 technology in six rice varieties (three in indica (xian) and three in japonica (geng) backgrounds), and three two-gene editing combinations, including hst1-lrrk1, hst1-strk2, and hst1-pc1, were created. All combinations of hst1-pc1, hst1-lrrk1, and hst1-strk2 significantly improved the ST of all the tested materials in both xian and geng backgrounds and had much better ST than single-gene editing lines. The combination of hst1-pc1 had the poorest ST in CH70 and 8TX23 backgrounds but showed almost the same level of ST as the combinations of hst1-strk2 and hst1-lrrk1 in the C199S background for 17 days after salinization, which clearly brought out the background effect on ST and its utilization in ST breeding. As a comparison of the recipient varieties, almost all gene-edited lines except hst1-pc1 in the CH70 background showed significantly reduced grain weight owing to reduced seed setting rate in normal conditions. The hst1-strk2 showed the highest level of ST at the seedling stage and a relatively higher grain yield among all the lines; thus, it is feasible to enhance the ST of high-yielding rice varieties by simultaneously gene-editing against the two loci or pyramiding these two alleles with the other major ST genes of rice. Our results provide valuable gene resources and germplasms for improving rice salt tolerance and high yield. Full article

(This article belongs to the Section Crop Breeding and Genetics)

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13 pages, 843 KiB

Open AccessArticle

Life Cycle of the Dagger Nematode Xiphinema israeliae and the Host Suitability of Olive and Fig for X. israeliae and X. italiae

by Emmanuel A. Tzortzakakis, Juan E. Palomares-Rius, Ana García-Velázquez, Rosana Salazar-García, Pablo Castillo and Antonio Archidona-Yuste

Agronomy 2025, 15(5), 1013; https://doi.org/10.3390/agronomy15051013 - 23 Apr 2025

Abstract

Xiphinema israeliae has been reported in the rhizosphere of olives in Crete, Greece. Attempts were made to culture this nematode in pots planted with olive and fig seedlings, using Xiphinema index as a control. In these conditions, X. index showed a high reproduction [...] Read more.

Xiphinema israeliae has been reported in the rhizosphere of olives in Crete, Greece. Attempts were made to culture this nematode in pots planted with olive and fig seedlings, using Xiphinema index as a control. In these conditions, X. index showed a high reproduction rate on fig in a few months and none on olive. The experiments with X. israeliae indicated that olive and fig are suitable hosts for this dagger nematode, since juveniles of various life stages were found in plants inoculated exclusively with females, although the rate of nematode reproduction was low. Xiphinema israeliae was proved to have a parthenogenetic reproduction and a long life cycle, from female to female, taking more than nine months at a 24–26 °C temperature to complete. Therefore, a quite long period, even a few years, may be necessary to obtain a high number of nematodes in pots under experimental conditions. In contrast, Xiphinema italiae did not reproduce on olive and fig after a seven-month period. Accordingly, to our knowledge, this study increases the host range and knowledge about the culturing of these species, as only seven species of Xiphinema have been successfully cultured in pots till now. The potential of fig and olive for culturing X. israeliae gives an opportunity for further studies of its biology and host range. Full article

(This article belongs to the Section Pest and Disease Management)

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17 pages, 274 KiB

Open AccessArticle

Combining Ability of Maize Landraces for Yield and Basic Chemical Composition of Grain

by Aleksandar Popović, Vojka Babić, Zoran Čamdžija, Srboljub Živanov, Dragana Branković-Radojčić, Jelena Golijan Pantović and Vesna Perić

Agronomy 2025, 15(5), 1012; https://doi.org/10.3390/agronomy15051012 - 23 Apr 2025

Abstract

The launch of a successful quality-oriented breeding program requires both mining the residual diversity in grain quality parameters contained in the elite, high-yielding breeding material with good agronomic performance and introgression of new germplasm, such as local landraces, with a high level of [...] Read more.

The launch of a successful quality-oriented breeding program requires both mining the residual diversity in grain quality parameters contained in the elite, high-yielding breeding material with good agronomic performance and introgression of new germplasm, such as local landraces, with a high level of targeted quality parameters per se. This study analyzed the combining abilities of 31 maize landraces and two divergent inbred lines–testers (ZPL217 and ZPL-255/75-5) regarding the yield and protein, starch, and lipid content, assessed by Near Infrared Reflectance (NIR) spectroscopy as a fast, non-destructive, and cost-effective method. The general combining ability (GCA) defines the average behavior of genotype in hybrid combination, resulting from additive gene action, so positive GCA values of landraces AN13 and AN197 for protein, AN632 for lipids, and AN594 for starch content indicate that they can be valuable sources of the mentioned properties in quality-oriented maize breeding programs. The obtained correlation between starch content and protein and yield (−0.948 **; 0.587 **) pointed out that an increase in the protein content during breeding will be accompanied by a decrease in the starch content and yield. The specific combining ability (SCA) of the testers used, suggests their possible application in establishing and improving quality breeding programs’ initial material. Full article

(This article belongs to the Section Crop Breeding and Genetics)

24 pages, 18378 KiB

Open AccessArticle

GCF-DeepLabv3+: An Improved Segmentation Network for Maize Straw Plot Classification

by Yuanyuan Liu, Jiaxin Zhang, Yueyong Wang, Yang Luo, Pengxiang Sui, Ying Ren, Xiaodan Liu and Jun Wang

Agronomy 2025, 15(5), 1011; https://doi.org/10.3390/agronomy15051011 - 22 Apr 2025

Abstract

To meet the need of rapid identification of straw coverage types in conservation tillage fields, we investigated the use of unmanned aerial vehicle (UAV) low-altitude remote sensing images for accurate detection. UAVs were used to capture images of conservation tillage farmlands. An improved [...] Read more.

To meet the need of rapid identification of straw coverage types in conservation tillage fields, we investigated the use of unmanned aerial vehicle (UAV) low-altitude remote sensing images for accurate detection. UAVs were used to capture images of conservation tillage farmlands. An improved GCF-DeepLabv3+ model was utilized for detecting straw coverage types. The model incorporates StarNet as its backbone, reducing parameter count and computational complexity. Furthermore, it integrates a Multi-Kernel Convolution Feedforward Network with Fast Fourier Transform Convolutional Block Attention Module (MKC-FFN-FTCM) and a Gated Conv-Former Block (Gated-CFB) to improve the segmentation of fine plot details. Experimental results demonstrate that GCF-DeepLabv3+ outperforms other methods in segmentation accuracy, computational efficiency, and model robustness. The model achieves a parameter count of 3.19M and its FLOPs (Floating Point Operations) is 41.19G, with a mean Intersection over Union (MIoU) of 93.97%. These findings indicate that the proposed GCF-DeepLabv3+-based rapid detection method offers robust support for straw return detection. Full article

(This article belongs to the Special Issue Intelligent Information System for Agriculture Based on Vision Technology)

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20 pages, 3579 KiB

Open AccessArticle

The Use of Grape Pomace Residues as a Nutrient Source in Subtropical Viticulture

by Allan Augusto Kokkonen, Tadeu Luis Tiecher, Arcângelo Loss, Moreno Toselli, Luana Paula Garlet, Ana Luiza Lima Marques, Daniéle Gonçalves Papalia, Samuel Schemmer, Vanessa Ferraz Costa, Jean Michel Moura-Bueno and Gustavo Brunetto

Agronomy 2025, 15(5), 1010; https://doi.org/10.3390/agronomy15051010 - 22 Apr 2025

Abstract

The global wine industry is shifting towards organic viticulture to reduce dependence on industrial inputs, favoring organic nutrient sources like grape pomace. However, the suitability of grape pomace-based compost and vermicompost in subtropical regions remain unclear. Given the diverse responses of grapevines to [...] Read more.

The global wine industry is shifting towards organic viticulture to reduce dependence on industrial inputs, favoring organic nutrient sources like grape pomace. However, the suitability of grape pomace-based compost and vermicompost in subtropical regions remain unclear. Given the diverse responses of grapevines to fertilization under different climates and soil conditions, field studies are crucial. This research investigated whether these residues, alongside non-industrialized mineral fertilizers, can enhance soil fertility and improve grape yield and quality in subtropical climates. We found that compost and vermicompost exhibit distinct chemical compositions, leading to varied patterns of nutrient release in soils. However, grapevines displayed minimal to negligible responses in terms of leaf tissue levels nutrients. Notably, “Isabella” grapevines displayed a reduction in grape yield with organic fertilizer application and remained unresponsive to mineral fertilization. While there were no substantial alterations in must composition, “Isabella” grapevines demonstrated elevated levels of anthocyanins when cultivated with mineral fertilizer. In contrast, “Chardonnay” grapevines exhibited no changes in both grape yield and quality in response to the various fertilization treatments examined. While organic and mineral fertilizers may have distinct chemical compositions and release patterns, their effectiveness in improving grape yield and quality appears to vary significantly among different grape cultivars. Full article

(This article belongs to the Special Issue Application of Organic Amendments in Agricultural Production—2nd Edition)

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19 pages, 1755 KiB

Open AccessArticle

Optimizing Lavender (Lavandula angustifolia Mill.) Yield and Water Productivity with Deficit Irrigation in Semi-Arid Climates

by Ali Kaan Yetik and Burak Şen

Agronomy 2025, 15(5), 1009; https://doi.org/10.3390/agronomy15051009 - 22 Apr 2025

Abstract

Irrigation optimization is critical for sustainable agriculture in water-scarce regions, particularly for drought-tolerant crops like lavender (Lavandula angustifolia Mill.), where strategic water management can enhance productivity. This study evaluated the impact of different irrigation regimes on yield, yield components, essential oil content, [...] Read more.

Irrigation optimization is critical for sustainable agriculture in water-scarce regions, particularly for drought-tolerant crops like lavender (Lavandula angustifolia Mill.), where strategic water management can enhance productivity. This study evaluated the impact of different irrigation regimes on yield, yield components, essential oil content, water productivity, and irrigation water productivity of drip-irrigated lavender under the semi-arid conditions of Niğde, Turkey, over five growing seasons (2020–2024). Treatments included full irrigation (T₁), moderate deficit irrigation (T₂, 33% water deficit), severe deficit irrigation (T₃, 66% water deficit), and rainfed conditions (T₄). Results demonstrated that T₂ achieved fresh yields (144–227 kg da⁻¹) and oil yields (2.7–6.9 kg da⁻¹) comparable to T₁, with crop water consumption ranging 781.5–923.6 mm. Rainfed conditions significantly reduced yields but maximized water productivity, highlighting the potential for efficient water use even under substantial water deficits. Essential oil content remained stable (1.88–3.04%) across treatments, except in 2022 (p < 0.05). Lavender exhibited low drought sensitivity, with a yield response factor (k_y) of 0.25, indicating adaptability to controlled water deficits. Regression analyses revealed significant positive linear relationships between crop water consumption and fresh yield. Overall, the findings emphasize that improving water productivity through moderate-to-severe deficit irrigation strategies can support sustainable lavender production under semi-arid conditions, even when absolute yields are partially compromised. Results indicated that T₂ is recommended for optimizing water productivity with minimal yield reduction. However, in water-limited regions, T₃ provided viable productivity, offering a suitable balance for sustainable lavender production in semi-arid climates. Full article

(This article belongs to the Special Issue Optimizing Crop Water Use: Advances and Applications in Deficit Irrigation Strategies)

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12 pages, 1418 KiB

Open AccessArticle

Evaluation of Rice Blast Resistance and R Gene Analysis in Japonica Rice Varieties Tested in the Anhui Region

by Qingqing Chen, Yiqun Hu, Wenjie Shen and Aifang Zhang

Agronomy 2025, 15(5), 1008; https://doi.org/10.3390/agronomy15051008 - 22 Apr 2025

Abstract

Rice blast caused by the ascomycete fungus Magnaporthe oryzea is one of the most widespread and destructive rice diseases worldwide. The most economical and effective strategy for controlling rice blast is the rational use and promotion of disease-resistant varieties. To enhance disease resistance, [...] Read more.

Rice blast caused by the ascomycete fungus Magnaporthe oryzea is one of the most widespread and destructive rice diseases worldwide. The most economical and effective strategy for controlling rice blast is the rational use and promotion of disease-resistant varieties. To enhance disease resistance, it is essential to analyze the resistance levels of rice varieties and the role of resistance (R) genes. To investigate blast resistance, R gene distribution, and their contributions in japonica rice, 287 varieties were evaluated through artificial inoculation. PCR detection was also performed using specific primers for eleven R genes. The results showed that 24.4% of the varieties exhibited moderate resistance (MR), indicating an overall moderate resistance level. The frequency of R genes varied significantly: Pib was the most prevalent (89.2%), followed by Pi5 (73.5%), Pita (62.4%), Pia (54.4%), Pikh (48.4%), Pik (41.1%), Pi9 (35.5%), Pizt (23.7%), Pit (10.8%), and Pi1 (10.5%). No Pigm was detected. Among these, Pik, Pi9, Pizt, and Pita contributed most significantly to disease resistance, with contributions of 42.4%, 38.2%, 38.2%, and 33.5%, respectively. The number of R genes detected in the tested varieties ranged from 0 to 9, with most varieties containing more than three genes. The highest proportion of resistant varieties was observed in those carrying six genes. The most common R gene combinations in resistant varieties were ‘Pib + Pita + Pi5 + Pikh + Pik + Pi9’ and ‘Pizt + Pib + Pita + Pia + Pi5 + Pik + Pi9’. In conclusion, these findings provide valuable insights into the breeding and utilizing blast-resistant japonica rice varieties in Anhui Province. Full article

(This article belongs to the Section Pest and Disease Management)

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17 pages, 4283 KiB

Open AccessEssay

Mitigation of Greenhouse Gas Emissions Using Straw Biochar in Arid Regions of Northwest China: Evidence from Field Experiments

by Yonglin Jia, Yule Sun, Dongliang Zhang, Wei Yang, Jiayin Pang, Kadambot H. M. Siddique and Zhongyi Qu

Agronomy 2025, 15(5), 1007; https://doi.org/10.3390/agronomy15051007 - 22 Apr 2025

Abstract

This study explores biochar’s impact on soil fertility, greenhouse gas (GHG) emissions, grain yield, carbon footprint (CF), and net ecosystem carbon budget (NECB) in northwest China’s arid regions. A two-year field experiment tested three biochar rates (15, 30, and 45 t ha⁻¹ [...] Read more.

This study explores biochar’s impact on soil fertility, greenhouse gas (GHG) emissions, grain yield, carbon footprint (CF), and net ecosystem carbon budget (NECB) in northwest China’s arid regions. A two-year field experiment tested three biochar rates (15, 30, and 45 t ha⁻¹) against a control. The results showed that biochar significantly reduced overall soil GHG emissions, though the highest rate increased methane emissions. The 30 t ha⁻¹ rate yielded the highest average grain production (13.9 t ha⁻¹), boosted soil organic carbon storage by 76 kg ha⁻¹, and decreased global warming potential (GWP) by 87.8 kg CO₂ ha⁻¹ and GHG emission intensity by 6.74 kg t⁻¹. Biochar also lowered the CF and enhanced the NECB, primarily through increased net primary production and improved soil fertility and crop yields. CO₂ emissions and fertilizer use were major CF contributors, but biochar reduced both the biomass-scaled and yield-scaled CFs. Overall, biochar improved crop yields, NECB, and soil carbon storage while reducing GWP, GHGI, and CF. This study recommends 30 t ha⁻¹ biochar to optimize crop production, enhance carbon balance, and mitigate climate change impacts, highlighting biochar’s potential as a sustainable soil amendment in arid ecosystems. Full article

(This article belongs to the Section Soil and Plant Nutrition)

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