Your search keyword '"double cropping"' showing total 1,992 results

1. N Stress Alleviation in Crops—A System Approach Analysing Residual N From Winter Crops in a Late‐Maize‐Wheat Sequence.

Author

Biassoni, M. M., Agosti, M. B., Kehoe, E., Enrico, J. M., Gutiérrez Boem, F. H., and Salvagiotti, F.

Subjects

*DOUBLE cropping, *CROP rotation, *AGRICULTURAL productivity, *WHEAT, *GRAIN yields, *CORN, *PEAS

Abstract

Nitrogen (N) is crucial for crop production. Crop sequences with different legume participation affect N availability and therefore N fertiliser management. The study aimed to assess the inclusion of winter crops (WC) with different amounts of residues and different C:N ratios on the following: (i) the response to N fertilisation in the following late‐maize (Zea mays L.), and to carry that comparison into a subsequent wheat crop (Triticum aestivum L.), and (ii) identify soil N indicators associated with these responses. Two field experiments (E1 and E2) were conducted in the Argentinean Pampas during two growing seasons to evaluate a WC/late‐maize‐wheat sequence under no‐tillage. In each experiment, late‐maize was sown after a bare‐fallow and three WC: wheat, vetch (Vicia villosa L.) and field pea (Pisum sativum L.), where five rates of N fertilisation were evaluated. An area of late‐maize that was not fertilised with N within each previous WC was used to evaluate the response to N fertilisation in the subsequent wheat crop. Indigenous N was estimated by using N uptake in the non‐N‐fertilised treatments. Soil N indicators and C:N ratio of WC residues were evaluated as indicators of response to N fertilisation in both crops. Significant responses to N fertilisation in grain yield and N uptake were observed in late‐maize when bare‐fallow and wheat were the previous treatments in both experiments. In contrast, vetch and field pea supplied 32 and 40 kg N ha−1 in E1 and E2, respectively, and showed no response to N fertilisation, satisfying the N required by late‐maize. However, this supply was not enough to sustain the N demand of the subsequent wheat, where the response to N addition ranged from 36% to 74% when vetch and wheat were the previous WC, respectively. Only soil inorganic N indicators were associated with indigenous N supply. Moreover, the apparent net WC effect was linked to late‐maize (r2 = 0.91) and subsequent wheat (r2 = 0.67) grain yield response, which was also related to the C:N ratio of the WC residues in late‐maize and the subsequent wheat (r2 = 0.78), suggesting that mineralisation occurs when C:N ratio is below 18. Consequently, in future studies the C:N ratio of the WC residues can be included in N fertilisation recommendation schemes when late‐maize is sown as a double crop in more intensified crop sequences. [ABSTRACT FROM AUTHOR]

Published

2024

2. Post-heading dry-matter transport and nutrient uptake differentiate hybrid and inbred indica rice in the doublecropping system in South China.

Author

You-qiang Fu, Chu-sheng Lu, Xu-hua Zhong, Kai-ming Liang, Jun-feng Pan, Yan-zhuo Liu, Xiang-yu Hu, Rui Hu, Mei-Juan Li, Xin-yu Wang, Qun-huan Ye, Yuan-hong Yin, Ji-chuang Huang, and Nong-rong Huang

Subjects

DOUBLE cropping, GRAIN yields, RICE breeding, NUTRIENT uptake, FIELD research, HYBRID rice

Abstract

Introduction: Hybrid rice demonstrated superior performance in enhancing yield and efficiency in rice production compared to inbred rice. Nevertheless, the underlying mechanism responsible for the increased yield and efficiency of hybrid rice in South China's double-cropping rice region remains understudied. Methods: Field experiments over two consecutive years were conducted. Firstly, yield variations among 20 inbred and 15 hybrid rice cultivars prevalent in South China's double-cropping rice system were examined. Secondly, selecting representative hybrid and inbred rice cultivars with significant yield disparities were carried out on further analyzing dry-matter production, source-sink relationships, and nutrient absorption and utilization in both rice types. Results: Hybrid rice displayed an average grain yield of 8.07 and 7.22 t hm-2 in the early and late seasons, respectively, which corresponds to a 12.29% and 13.75% increase over inbred rice with statistically significant differences. In comparison to inbred rice, hybrid rice exhibited enhanced nitrogen concentration in leaves at the heading stage (15.48-16.20%), post-heading dry matter accumulation (52.62-73.21%), post-heading dry matter conversion rate (29.23-34.12%), and harvest index (17.31-18.37%). Additionally, grain nitrogen and phosphorus uptake in hybrid rice increased by 11.88-22.50% and 16.38-19.90%. Hybrid rice mainly improved post-heading nitrogen and phosphorus uptake and transport, while not total nitrogen and phosphorus uptake. Internal nitrogen and phosphorus use efficiency enhanced by 9.83%-14.31% and 10.15%-13.66%, respectively. Postheading dry matter accumulation, harvest index, grain nitrogen and phosphorus uptake, and internal nitrogen and phosphorus use efficiency exhibited significant positive linear correlations with grain yield. Discussion: The period from heading to maturity is critical for enhancing hybrid rice yield and efficiency. Improving photosynthetic capacity during this period and promoting nutrient transport to grains serve as crucial pathways for increasing grain yield and efficiency. This study is of great significance for further improvement grain yield and breeding rice cultivars with high-yield and high nutrients use efficiency for South China's double-cropped rice system. [ABSTRACT FROM AUTHOR]

Published

2024

3. Applying double cropping and interactive irrigation in the North China Plain using WRF4.5.

Author

Fan, Yuwen, Yang, Zhao, Lo, Min-Hui, Hur, Jina, and Im, Eun-Soon

Subjects

*LEAF area index, *IRRIGATION farming, *DOUBLE cropping, *AGRICULTURAL climatology, *METEOROLOGICAL research

Abstract

Irrigated cultivation exerts a significant influence on the local climate and the hydrological cycle. The North China Plain (NCP) is known for its intricate agricultural system, marked by expansive cropland, high productivity, compact rotation, a semi-arid climate, and intensive irrigation practices. As a result, there has been considerable attention on the potential impact of this intensive irrigated agriculture on the local climate. However, studying the irrigation impact in this region has been challenging due to the lack of an accurate simulation of crop phenology and irrigation practices within the climate model. By incorporating double cropping with interactive irrigation, our study extends the capabilities of the Weather Research Forecast (WRF) model, which has previously demonstrated commendable performance in simulating single-cropping scenarios. This allows for two-way feedback between irrigated crops and climate, further enabling the inclusion of irrigation feedback from both ground and vegetation perspectives. The improved crop modeling system shows significant enhancement in capturing vegetation and irrigation patterns, which is evidenced by its ability to identify crop stages, estimate field biomass, predict crop yield, and project monthly leaf area index. The improved simulation of large-scale irrigated crops in the NCP can further enhance our understanding of the intricate relationship between agricultural development and climate change. [ABSTRACT FROM AUTHOR]

Published

2024

4. Effects of Long-Term Fertilizer Managements on Soil Organic Carbon Mineralization Under the Double-Cropping Rice System in Southern China.

Author

Tang, Haiming, Shi, Lihong, Wen, Li, Cheng, Kaikai, Li, Chao, Li, Weiyan, Guo, Yong, and Luo, Hanfang

Subjects

*SOIL management, *DOUBLE cropping, *MINERALIZATION, *FERTILIZERS, *CARBON in soils

Abstract

Soil organic carbon (SOC) plays an important role in maintaining or increasing soil fertility and quality in paddy field, but there is limited information about how SOC mineralization responds to different fertilizer managements under the double-cropping rice system in southern China. Therefore, this study was designed to explore changes in SOC content, soil enzyme activities, SOC mineralization at 0–10 cm and 10–20 cm layers, and its relationship with long-term fertilizer managements in a double-cropping rice system of southern China. The experiment included four fertilizer treatments: chemical fertilizer alone (CF), rice straw and chemical fertilizer (RS+F), 30% organic manure and 70% chemical fertilizer (OM+F), and without fertilizer input as a control (Con). These results showed that SOC and labile organic carbon contents at 0–10 cm and 10–20 cm layers in paddy field with RS+F and OM+F treatments were increased, compared to CF and Con treatments. Compared with Con treatment, SOC mineralization rate and accumulation with CF, RS+F, and OM+F treatments were increased. SOC accumulation and potential mineralization at 0–10 cm and 10–20 cm layers with RS+F and OM+F treatments were increased, compared with CF and Con treatments. SOC mineralization rate and accumulation at 0–10 cm layer with CF, RS+F, OM+F, and Con treatments were higher than that of 10–20 cm layer. These results indicated that soil invertase, cellulose and urease activities in paddy field with RS+F and OM+F treatments were significantly higher than that of CF and Con treatments. There was a significant positive relationship between SOC accumulation and SOC content, soil invertase, cellulose, urease activities but were significant negative correlated with soil pH, bulk density. As a result, these were beneficial practices for improving SOC content and SOC mineralization in a double-cropping rice field of southern China by combined application of rice residue or organic matter with chemical fertilizer managements. [ABSTRACT FROM AUTHOR]

Published

2024

5. Effects of tillage management on soil organic carbon mineralization under double cropping rice system of southern China.

Author

Tang, Haiming, Shi, Lihong, Wen, Li, Cheng, Kaikai, Li, Chao, Li, Weiyan, and Xiao, Xiaoping

Subjects

*DOUBLE cropping, *SOIL management, *CROP residues, *PADDY fields, *SOIL enzymology, *NO-tillage, *TILLAGE

Abstract

Soil organic carbon (SOC) plays a vital role in maintaining or enhancing soil fertility and quality of paddy field, but there is still limited information about how SOC mineralization responds to different tillage managements under the double-cropping rice (Oryza sativa L.) system in southern of China. Therefore, this study was designed to explore the changes in SOC content, soil enzyme activities (invertase, cellulose and urease), SOC mineralization at 0–10 cm and 10–20 cm layers and its relationship with 7-years tillage management under the double-cropping rice system of southern China. The experiment included four tillage managements: rotary tillage with all residues removed as a control (RTO), conventional tillage with residue incorporation (CT), rotary tillage with residue incorporation (RT), and no-tillage with residue retention (NT). The results indicated that SOC and soil labile organic carbon contents at 0–10 cm and 10–20 cm layers in paddy field with CT and RT treatments were significantly higher than the RTO treatment. Compared to the RTO treatment, SOC mineralization and accumulation at 0–10 cm and 10–20 cm layers in paddy field with CT, RT and NT treatments were increased. SOC accumulation and potential mineralization at 0–10 cm layer with NT treatment were significantly higher than the CT, RT and RTO treatments. Soil mineralization constant at 10–20 cm layer with CT treatment was significantly higher than those of RT, NT and RTO treatments. This result indicated SOC mineralization rate and accumulation at 10–20 cm layer of CT, RT, NT and RTO treatments were lower than those of treatments at 0–10 cm layer. Compared to RTO treatment, soil invertase, cellulose and urease activities with CT and RT treatments were significantly increased. Compared to RTO treatment, soil invertase, cellulose and urease activities at 0–20 cm layer of CT treatment increased by 22.6%, 46.2% and 89.0%, respectively. There was significantly positive correlation between SOC accumulation and SOC content, soil invertase, cellulose, urease activities, but SOC accumulation was significantly negative correlated with soil pH, bulk density. Therefore, CT and RT treatments were beneficial managements to improve SOC content and SOC mineralization in the double-cropping rice field of southern China. [ABSTRACT FROM AUTHOR]

Published

2024

6. Coastal Salinity Management and Cropping System Intensification through Conservation Agriculture in the Ganges Delta.

Author

Sarangi, Sukanta Kumar, Mainuddin, Mohammed, Raut, Shishir, Mandal, Uttam Kumar, and Mahanta, Kshirendra Kumar

Subjects

*AGRICULTURAL conservation, *DOUBLE cropping, *CROPPING systems, *SOIL salinity, *CROP rotation, *CONSERVATION tillage, *TILLAGE

Abstract

Soil salinity is the major constraint for cropping system intensification in the coastal region of the Ganges Delta. Salts build up on the soil surface, as well as in the crop root zone, due to the capillary rise in underground brackish water, hampering the growth and development of crops and resulting in mortality and low yields. We studied, for three years (2020–2021 to 2022–2023), the effect of conservation agricultural practices (zero tillage planting, crop residue recycling, and crop rotations) on the major soil properties (soil salinity and organic carbon status), crop performance (yield and economics), and water footprint. Conservation agricultural practices significantly reduce soil salinity, build soil organic carbon, reduce water footprint, and increase the profitability of cropping systems compared to tillage-intensive conventional practices. Under conventional agriculture, the sole cropping of rice is more profitable than double and triple cropping systems. [ABSTRACT FROM AUTHOR]

Published

2024

7. Mainstream Planting Systems Influence Spatiotemporal Variations in the Soil Quality of Watershed Sloping Farmland.

Author

Li, Hongying, Tang, Jun, Zhu, Ningyuan, Wang, Jing, and Qiao, Jun

Subjects

*SOIL quality, *SOIL conservation, *SOIL erosion, *SOIL degradation, *DOUBLE cropping

Abstract

Mainstream planting systems of watershed sloping farmland span the globe and are closely related to the variations in the soil quality of watershed sloping farmland. However, little information is available about how mainstream planting systems influence spatiotemporal variations in the soil quality of watershed sloping farmland. The soil of 0–20 cm was collected at fixed points in three mainstream planting systems (a low-altitude citrus orchard system, a mid-altitude double-cropping system, and a high-altitude single-cropping system) at a fixed time each year for 15 years in a typical agricultural watershed of the Three Gorges Reservoir area of China. Fourteen physicochemical properties of the sampled soil were measured. We found that (1) the soil quality indexes of the citrus orchard system, double-cropping system, and single-cropping system decreased from 0.75, 0.71, and 0.67 in 2004 to 0.68, 0.57, and 0.55 in 2019, respectively; (2) the order of the six master control factors influencing soil quality was sand content > bulk density > total nitrogen > clay content > pH > total phosphorus in the citrus orchard system, sand content > bulk density > clay content > pH > total phosphorus > total nitrogen in the double-cropping system, and sand content > clay content > total phosphorus > pH > bulk density > total nitrogen in the single-cropping system; and (3) the total effects of soil erosion and fertilization on soil quality were −0.496 and −0.308 in the citrus orchard system, −1.254 and 0.371 in the double-cropping system, and −0.844 and 0.013 in the single-cropping system, respectively. We suggest that the three mainstream planting systems influence soil quality through variations in their master control factors caused primarily by soil erosion and secondarily by fertilization. These findings are important for controlling soil degradation through controlling soil erosion and rational fertilization in watersheds. [ABSTRACT FROM AUTHOR]

Published

2024

8. Physiological and Proteomic Analysis of Various Priming on Rice Seed under Chilling Stress.

Author

Zhang, Hua, Hui, Guo, Gao, Guoqing, Ali, Izhar, Tang, Maoyan, Chen, Lei, Zhong, Xiaoyuan, Jiang, Ligeng, Liang, Tianfeng, and Zhang, Xiaoli

Subjects

AMINO acid synthesis, DOUBLE cropping, PHOSPHATE metabolism, CROPPING systems, INOSITOL phosphates, GERMINATION

Abstract

Rice (Oryza sativa L.) cultivation using direct seeding is susceptible to chilling stress, particularly during seed germination and early seedling growth in the early season of a double cropping system. Alternatively, seed priming with various plant growth-promoting hormones is an effective technique to promote rapid and uniform emergence under chilling stress. Therefore, we evaluated the impact of gibberellin A3 (GA3) and brassinolide (BR) priming on rice seed emergence, examining their proteomic responses under low-temperature conditions. Results indicated that GA3 and BR increased the seed germination rate by 22.67% and 7.33% at 72 h and 35% and 15% at 96 h compared to the control (CK), respectively. Furthermore, proteomic analysis identified 2551, 2614, and 2592 differentially expressed proteins (DEPs) in GA, BR, and CK, respectively. Among them, GA exhibited 84 upregulated and 260 downregulated DEPs, while BR showed 112 upregulated and 102 downregulated DEPs, and CK had 123 upregulated and 81 downregulated DEPs. Notably, under chilling stress, both GA3 and BR are involved in peroxide metabolism, phenylpropanoid biosynthesis, and inositol phosphate metabolism, enhancing antioxidant capacity and providing energy substances for germination. In addition, GA3 triggers the specific regulation of stress responsive protein activation, GTP activation, and ascorbic acid biosynthesis and promotes the stability and integrity of cell membranes, as well as the synthesis of cell walls, providing physical defense for seeds to resist low temperatures. At the same time, BR triggers specific involvement in ribosome synthesis and amino acid synthesis, promoting biosynthetic ability and metabolic regulation to maintain plant life activities under low-temperature stress. Furthermore, the various genes' expression (OsJ_16716, OsPAL1, RINO1) confirmed GA3 and BR involved in peroxide metabolism, phenylpropanoid biosynthesis, and inositol phosphate metabolism, enhancing antioxidant capacity and providing energy substances for germination. This study provides valuable insights into how rice seed embryo responds to and tolerates chilling stress with GA3 seed priming. [ABSTRACT FROM AUTHOR]

Published

2024

9. 稻鱼共生养鱼密度对稻田甲烷排放的影响.

Author

欧茜, 熊瑞, 周文涛, 钟康裕, 龙攀, 徐莹, and 傅志强

Subjects

DOUBLE cropping, RICE farming, GREENHOUSE gas mitigation, CARBON emissions, SYMBIOSIS

Abstract

Copyright of Journal of Agro-Environment Science is the property of Journal of Agro-Environment Science Editorial Board 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

10. Spatial and Temporal Variations of Climate Resources during the Growing Season of Early-Season Rice in Hunan Province.

Author

He, Aibin, Li, Jiebing, Long, Jirui, Ai, Zhiyong, Zhang, Peiguang, and Guo, Xiayu

Subjects

CLIMATE change, AGRICULTURAL resources, AGRICULTURAL productivity, METEOROLOGICAL stations, DOUBLE cropping

Abstract

The rising temperatures and changes in precipitation due to climate change have significantly impacted agricultural production. Evaluating the effects of climate change on rice production is crucial for improving rice cultivation techniques and ensuring food security. It is essential to comprehensively examine the climatic, spatial, and temporal variations during the duration of crop production. Previous research has mainly focused on different rice planting areas, rice types, and various growth stages of rice. However, more research is needed on the climatic changes during the crop-growing season in specific regions. Therefore, this study compiled complete daily meteorological data from 37 meteorological stations in Hunan Province from 1961 to 2020. The period from 1961 to 2020 was divided into three segments: 1961–1980 (a), 1981–2000 (b), and 2001–2020 (c), to analyze the characteristics of agricultural climate resource changes during different growth stages of early-season rice in Hunan Province. Results show that the heat resources were significantly increased (accumulated temperature growth rate of 43.36 °C/10a), the sunshine resources were decreased by −14.60 h/10a, and the precipitation resources were slightly increased by 6.85 mm/10a. The increase in heat resources mainly occurs during the vegetative growth stage of early-season rice. Additionally, the high-value regions of heat resources and precipitation in period c are 97.8% and 34.2% higher than the average values of periods a and b, respectively. In contrast, the regions with high sunshine hours significantly decreased in period c compared to periods a and b. In summary, the heat, sunshine, and water resources in the central and eastern regions of Hunan Province increase simultaneously, and appropriate cultivation measures should be adopted in the future to improve the yield and resource utilization efficiency of early-season rice in a double-cropping system. [ABSTRACT FROM AUTHOR]

Published

2024

11. Delayed sowing and its ramifications: biophysical, yield and quality analysis of wheat cultivars in the northwest Indo‐Gangetic plains.

Author

Roy, Debasish, Vashisth, Ananta, Krishnan, Prameela, Mukherjee, Joydeep, Meena, Mahesh Chand, Biswakarma, Niraj, Rathore, Pooja, Bag, Koushik, and Kumari, Sweta

Subjects

*STARCH content of grain, *CULTIVARS, *SOWING, *CLIMATE change, *DOUBLE cropping, *WHEAT harvesting, *WHEAT, *GRAIN, *WINTER wheat

Abstract

BACKGROUND: The continuous cultivation of rice–wheat in the same field is a key element of double‐cropping systems in the Indo‐Gangetic plains. Yields of such cropping systems are increasingly challenged as climate change drives increases in temperature, terminal stress and uneven rainfall, delaying rice harvesting and subsequently delaying sowing of wheat. In this paper, we evaluate the optimum sowing dates to achieve high grain yield and quality of wheat cultivars in northwest India. Three cultivars of wheat, HD‐2967, HD‐3086 and PBW‐723, were sown on three different dates at the research farm of ICAR‐IARI, New Delhi, to generate different weather conditions at different phenological stages. Different biophysical attributes, photosynthetic rate, stomatal conductance and transpiration rate, were measured at different phenological stages. Yield and grain quality parameters such as protein, starch, amylopectin, amylose and gluten were measured in different cultivars sown on different dates. RESULTS: Biophysical parameters were found to be higher in timely sown crops followed by late‐sown and very late‐sown crops. Further, the different sowing dates had a significant (P < 0.05) impact on the grain quality parameters such as protein, starch, amylopectin, amylose and gluten content. Percentage increases in the value of starch and amylose content under timely sown were ~7% and 11.6%, ~5% and 8.4%, compared to the very late‐sown treatment. In contrast, protein and amylopectin contents were found to increase by ~9.7% and 7.5%, ~13.8% and 16.6% under very late‐sown treatment. CONCLUSION: High‐temperature stress during the grain‐filling periods significantly decreased the grain yield. Reduction in the grain yield was associated with a reduction in starch and amylose content in the grains. The protein content in the grains is less affected by terminal heat stress. Cultivar HD‐3086 had higher growth, yield as well as quality parameters, compared to HD‐2967 and PBW‐723 in all treatments, hence could be adopted by farmers in northwest India. © 2024 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024

12. Variations in soybean nutritional and anti‐nutritional quality based on location and planting dates.

Author

Alfaro‐Wisaquillo, Maria Camila, Ali, Muhammad, Patiño, Danny, Oviedo‐Rondon, Edgar Orlando, Vann, Rachel, and Joseph, Michael

Subjects

*INDUSTRIAL location, *CULTIVARS, *TRYPSIN inhibitors, *DOUBLE cropping, *SOY proteins, *SOYBEAN, *SOYBEAN farming

Abstract

Summary: Soybeans (Glycine max) are a preferred source of plant‐based proteins and oil in various applications in foods and feeds. When soybean is converted to soybean meal (SBM), the quality is determined by the protein content and its digestibility. Protein digestibility is reduced by anti‐nutritional factors like trypsin inhibitors (TI) and processing. The abundant genetic variations in soybean germplasm affect the quantitative trait of protein content. This study analysed the effect of location and planting dates on genetically identical soybeans grown in North Carolina (NC) and then compared the nutritional traits to similar commonly grown soybean varieties in other locations in the USA. The soybeans were analysed using NIRS and wet chemistry. It was found that soybean protein content ranged from 38.14% to 44.92% among the different varieties grown in three different locations in NC. Similarly, TI levels ranged between 28.22 and 33.11 mg g−1 among these varieties. The same varieties, when planted as either a full season or double crop, had different TI levels and were also impacted by planting location. However, there were no significant differences in the TI levels between the varieties and planting seasons. Furthermore, no significant difference in protein content among the varieties within the planting dates was found. Compared to soybeans grown in other parts of the USA, the average crude protein (CP) content was similar to those grown in Arkansas and Minnesota. The TI levels were significantly higher than those grown in Ohio, similar to that of Arkansas, and significantly lower than that of Minnesota. [ABSTRACT FROM AUTHOR]

Published

2024

13. 秸秆还田和种植制度对长江中游稻田温室气体排放的影响.

Author

李心雨, 邓姣, 朱杰, 李成伟, 蒋梦蝶, 刘章勇, 聂江文, and 朱波

Subjects

GREENHOUSE gases, DOUBLE cropping, CROPPING systems, SOIL moisture, GREENHOUSE effect

Abstract

Copyright of Journal of Agro-Environment Science is the property of Journal of Agro-Environment Science Editorial Board 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

14. BLOOMING OPPORTUNITIES: Cash in on winter crops.

Author

Dinterman, Chelsea

Subjects

CASH crops, DOUBLE cropping, ANIMAL feeds, AGRICULTURE, HARVESTING time

Published

2024

15. Taking the guesswork out of crop production.

Author

Pistorius, Johann and Botha, Lindi

Subjects

*AGRICULTURAL productivity, *DOUBLE cropping, *ANIMAL science, *AGRICULTURE, *PRECISION farming, *CROPS

Abstract

The article focuses on Johann Pistorius's shift from cattle to crop farming due to severe stock theft on his farm. Topics include his transition to growing dryland maize and soya beans, the ongoing challenge of cattle theft mitigated by technology, and the role of modern tools in enhancing farm productivity.

Published

2024

16. Mitigating cold stress in rice: a study of genotype performance and sowing time.

Author

El-Refaee, Yasser Z., Gharib, Hany S., Badawy, Shimaa A., Elrefaey, Eman M., El-Okkiah, Samira A.F., Okla, Mohamed K., Maridueña-Zavala, María Gabriela, AbdElgawad, Hamada, and El-Tahan, Amira M.

Subjects

*FARM management, *DOUBLE cropping, *PLANT breeding, *BOTANISTS, *COVID-19 pandemic, *CATTLE fertility, *RICE

Abstract

Rice (Oryza sativa L.) is an essential food for half of the global population and is vital in maintaining global food security. Climate change, increasing population and recent incident of COVID pandemic has generated financial burden and threaten the global food security. Due to theses factors rice cultivation also has to face significant challenges. frequent weather changes pose a considerable challenge to agricultural planning, which was previously relaying on consistent seasonal variations. In this context, rice cultivation is particularly sensitive to cold, where its development and productivity inhibited by low temperatures (< 18 °C). Developing rice varietes with low temprature tolerence and good yield potential is one of the major goals of current breeding efforts of plant scientists. For this purpose, short duration and early rice varieties are most favorable to avoid cold stress and yield more in less number of days. this study was designed to investigate the effect of low temperatures on different rice varieties. the study was designed to identify low temprature tolerent genotypes with early and regular cultivation. For this, thirty-four genotypes were evaluated in two gorwing seasons (2018–2019) with four different sowing times. Statistically sowing time showed significant interaction between all yield contributing parameters. The data indicate that exposure to low temperatures during the reproductive phase prolongs the maturation period of the crop, also length of the panicle and the fertility of the spikelets drops, resulting in a significant decrease in the production of sensitive varieties. Some varieties are more sensitive to cold stress compared to others. In the Egyptian context, Giza176, Sakha104, and Sakha107 are recommended for early cultivation, while the genotypes Giza 179, Sakha101, Sakha104, and GZ 9730-1-1-1-1 are indicated for the normal cultivation period. The Sakha104 variety is particularly notable, as it is recommended for both purposes. In addition, the data obtained in this study provide valuable information for selecting rice varieties suitable for double cropping in the North Delta of Egypt. This study also contributes to the existing literature, providing insights into the resilience of rice cultivation in the face of climate change. [ABSTRACT FROM AUTHOR]

Published

2024

17. Photosynthetic activity and yield of potato varieties in summer planting with freshly harvested tubers.

Author

Ostonakulov, Toshtemir, Ismayilov, Alisher, Amanturdiev, Ilkhom, and Shamsiev, Anvar

Subjects

LEAF area, CULTIVARS, DOUBLE cropping, TUBERS, GROWING season, POTATOES

Abstract

The article presents the results of studying the growth, formation of leaf surface, productivity, and marketable yield of various very early, early, and mid-early potato varieties with double cropping: planting with freshly harvested tubers in summer. It was revealed that the studied varieties differ significantly in the germination of tubers, the formation of top stems, and leaf surfaces, as well as in marketable yield. The highest field germination of tubers (95.2-98.7%), stem formation (2.9-3.8 pcs.), leaf surface (33.6-39.9 thousand m² per 1 ha), photosynthetic potential on plantings (2590.0-3351.6 thousand m2), powerful tops and root systems with intensively accumulating yield, as well as the largest commercial yield (29.1-34.3 t/ha) were obtained from the varieties: in very early- Latona, Binella, Karatop, Ultraeshim; in early - Arizona, American, Yangi Uzbekistan; in mid-early - Evolution, Pikasso, Sylvana, Saviola. At the same time, the yield increase was 2.6-8.7 t/ha compared to standard varieties. [ABSTRACT FROM AUTHOR]

Published

2024

18. Spatial Distribution of the Cropping Pattern Exerts Greater Influence on the Water Footprint Compared to Diversification in Intensive Farmland Landscapes.

Author

Wang, Xiaohui, Jia, Hao, Wang, Xiaolong, Zhang, Jiaen, and Chen, Fu

Subjects

CROPPING systems, DOUBLE cropping, SUSTAINABLE agriculture, AGRICULTURAL intensification, ANTHROPOGENIC effects on nature

Abstract

Global imperatives call for reduced water consumption in homogeneous, intensive farming systems, where farmland landscape heterogeneity significantly impacts anthropogenic, ecological, and socioeconomic factors. However, the impact of this heterogeneity on crop water footprint (WF) remains uncertain. To address this, this study assessed the WF at the landscape scale across 616 subplots (1 × 1 km) in a representative county of North China Plain from 2013 to 2019, integrating green (WFgreen), blue (WFblue), and gray (WFgray) water footprints. Results showed that the winter wheat–summer maize double cropping pattern (WM) exhibited the highest WFgreen, WFblue, and WFgray. Over six years, most subplots saw significant reductions in WFgreen, WFblue, WFgray, and WF. At the landscape scale, diversification (compositional heterogeneity), fragmentation, and spatial distribution (configurational heterogeneity) were assessed using Shannon's diversity index (SHDI), edge density (ED), and effective mesh size (MESH), which exhibited average variations of 0.07, −3.16 m ha−1, and −5.86 m2, respectively. For WM patches, the percentage of landscape (PLAND) and MESH were used to evaluate diversification and spatial distribution, resulting in reductions of 1.14% and 2.32 m2, respectively. Regression analysis and structural equation modeling further illuminated the connections between the landscape pattern and WF, emphasizing the significant role of MESH in reducing WFblue and influencing crop diversity (p < 0.001). Therefore, spatial distribution, whether directly or through the mediation of diversification, demonstrated a more substantial overall impact on WF. Consequently, future research should prioritize investigating how spatial distribution influences crop choice and agronomic management in order to determine the optimal cropping patterns and field size that strike a balance between crop production and the water footprint. This study offers theoretical guidance and a scientific foundation for redesigning farmland landscapes to bolster water sustainability in intensive farming systems. [ABSTRACT FROM AUTHOR]

Published

2024

19. Carbon budget of paddy ecosystems in China simulated by denitrification‐decomposition model.

Author

Lu, Xinqing, Zhang, Xiuying, Wang, Zhen, and Li, Shengfeng

Subjects

NITROGEN fertilizers, DOUBLE cropping, CARBON sequestration, CARBON cycle, CLIMATE change

Abstract

Quantifying the carbon budget in rice paddy ecosystems is fundamental to understanding the role of paddy fields as carbon sinks or sources and to mitigating global climate change. This study used a process‐based model of the denitrification‐decomposition (DNDC) model to estimate greenhouse gas (GHG) emissions and carbon sinks in the paddy ecosystem across China. The simulation results showed that the GHG emissions were 0.147 Pg C‐equivalent year−1 and that the carbon sequestration in rice plants and soils reached 0.253 Pg C year−1 in 2016, indicating high carbon sequestration potential of the Chinese paddy ecosystem. Land management had a great influence on carbon budgets, among which straw residue incorporation rate and nitrogen fertilizer applications had a stronger influence on carbon budgets, particularly for double cropping rice. These results indicate that appropriate tillage practices can reduce GHG emissions and increase carbon sequestration of rice ecosystems while ensuring rice yields. [ABSTRACT FROM AUTHOR]

Published

2024

20. Divergencias en la rentabilidad según estratos de productores de la región pampeana Argentina.

Author

Leavy, Sebastián

Subjects

AGRICULTURAL exhibitions, GROSS margins, DOUBLE cropping, AGRICULTURE, AGRICULTURAL processing

Abstract

Copyright of Realidad Economica is the property of Realidad Economica 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

21. Improvement of Climate Resource Utilization in the Southwestern Hilly Region through the Construction of a New Multi-Maturing Cropping System.

Author

Kong, Fanlei, Li, Tongliang, Zhang, Wei, Yin, Pijiang, Liu, Fan, Lan, Tianqiong, Feng, Dongju, Wang, Xinglong, and Yuan, Jichao

Subjects

*CROPPING systems, *CLIMATE change adaptation, *SUSTAINABLE development, *DOUBLE cropping, *AGRICULTURAL development, *CROP allocation

Abstract

The construction of an appropriate cropping pattern is crucial for the improvement of regional agricultural economic efficiency and sustainable development. Despite previous efforts, there remains a gap in optimizing cropping patterns that fully leverage climate resources to enhance production efficiency. This study addresses this gap by systematically comparing the differences in climate resource allocation, production efficiency and crop response among models by constructing four new triple-maturing cropping models at typical ecological sites in the hilly areas of southwest China. To solve the above problems, we constructed eight cropping patterns and classified them to three as follows: the Traditional Double Cropping System, the Traditional Triple Cropping System, the Novel Triple Cropping System. The results showed that the new multi-maturing planting pattern was significantly better than the traditional two-maturing netting pattern and the traditional three-maturing planting pattern in terms of light, temperature and water productivity. Compared with the traditional two-maturity net cropping model and the traditional three-maturity cropping model, the new cropping model increased light energy productivity by 97.88% and 50.00%, respectively; light energy use by an average of 0.48% and 0.31%; cumulative temperature productivity by an average of 84.70% and 49.14%; and rainfall productivity by an average of 101.04% and 49.61%. An assessment of the light, temperature and water meteorological resource use efficiency of the different treatments showed that the resource use efficiency of the new multi-maturing planting pattern was on average 111.58% and 74.78% higher than that of the traditional two-maturing net planting pattern and the traditional three-maturing planting pattern, with the T6 pattern having the highest resource use efficiency. The new multi-ripening cropping pattern has demonstrated production stability in response to changes in light, temperature and water resources, better adapting to weekly climate changes, stabilizing yields and improving efficiency. In summary, the results of this study can provide a theoretical basis for optimizing cropping patterns and promoting the use of climate resources in agriculture and sustainable development. Future research should focus on further refining these models, exploring their adaptability to various climatic conditions, and evaluating their long-term economic and environmental impacts. [ABSTRACT FROM AUTHOR]

Published

2024

22. Nitrogen rate and harvesting time based on growing degree days influenced winter cereal rye morphological traits, forage yield, quality, and farm profit in poorly drained Alfisols.

Author

Vaughn, Kelsey, Adeyemi, Oladapo, Zandvakili, Omid R., Battaglia, Martin L., Babaei, Sirwan, Nair, Jayakrishnan, Still, Steven, Burkett, Gabriella, and Sadeghpour, Amir

Subjects

*HARVESTING time, *WINTER grain, *CROP yields, *DOUBLE cropping, *RYE, *COVER crops, *ALFISOLS

Abstract

Winter cereal rye (Secale cereale L.) (WCR) is often double cropped with maize for silage (Zea mays L.) to increase farm forage supply and profit. Spring nitrogen (N) fertilization to WCR could influence its production and quality at different harvesting times. Therefore, two on‐farm trials were conducted in the 2019–2020 and 2020–2021 growing seasons to evaluate the effect of harvesting time (late‐March to end‐of‐April considering the growth stage) and spring N fertilization (0, 23, 47, and 71 kg N ha−1) on WCR morphology, forage yield, nutrient removal, quality, and farm profit. Only two N treatments (0 and 47 kg N ha−1) were evaluated for each harvesting time in trial 1. A quadratic model best explained an increase in WCR dry matter (DM) yield in response to growing degree days (GDD) accumulation (R2 = 0.81). An increase in GDD linearly decreased WCR relative forage quality (RFQ). Benchmarking RFQ at 150 for dairy milk production indicates WCR should be harvested at a GDD of 543, at which WCR plant height was 31.8 cm and DM yield was 0.77 Mg ha−1. This resulted in loss of profit in both study years compared to later harvesting dates at higher GDDs. Benchmarking RFQ at 125 for heifer production indicated that harvest should occur at a GDD of 668, at which the WCR was 71 cm tall, and its DM yield was 2.25 Mg ha−1. Nitrogen balances were negative at the N0 treatment (0 kg N ha−1), indicating a need for some N to maximize WCR yield. We found that a rate between 21 and 47 kg N ha−1 maximizes yields reflecting slightly positive balances, in which the highest profits occur. Our results suggest that the harvesting time can be predicted by GDD and should be adjusted for RFQ. We conclude that less than 47 kg N ha−1 N fertilizer is required for WCR production in soils with manure history and high soil organic matter (>30 g kg−1). [ABSTRACT FROM AUTHOR]

Published

2024

23. 중만생 고품질 직파 및 이앙 재배적응 벼 품종 ‘새봉황’.

Author

이창민, 김춘송, 신운철, 백만기, 박현수, 고종철, 김정주, 서정필, 정오영, 이건미, 서정환, 박송희, 백동민, and 장현수

Subjects

*DOUBLE cropping, *RICE blast disease, *RICE, *SURVIVAL rate, *FARMS, *SOWING

Abstract

‘Saebonghwang’ was developed as a mid-late ripening rice variety with good cultivation stability and yield in transplanting and under direct seeding cultivation. It was bred by backcrossing ‘Hopum’, which has excellent cultivation stability and adaptability to direct seeding, as a repeat parent, and ‘Hitomebore,’ a Japanese rice variety with excellent taste, as a donor. The heading date of ‘Saebonghwang’ was August 11 under ordinary planting, which is two days earlier than that of ‘Nampyeong’, and August 13 under wet-direct seeding cultivation, which is the same as that of ‘Dongan’. ‘Saebonghwang’ had a culm length of 74 cm under wet-direct seeding cultivation, which is larger than that of ‘Dongan’ (69 cm), and had good cultivation stability, including lodging resistance. ‘Saebonghwang’ is resistant to bacterial leaf blight and rice stripe virus and shows moderate resistance to rice blast. Furthermore, ‘Saebonghwang’ has better grain appearance, superior taste and better milling characteristics than ‘Nampyeong’. The yield of ‘Saebonghwang’ when cultivated under ordinary planting, wet-direct seeding, and double cropping was 5.65, 5.37, and 5.37 MT/ha, respectively. Under wet direct sowing by drone cultivation, ‘Saebonghwang’ showed good initial survival rate and cultivation stability. The yield was 4.49 MT/ha, slightly lower than that obtained under transplanted cultivation (5.03 MT/ha), but was not statistically different; therefore, ‘Saebonghwang’ was adjudged to be adaptable to drone wet-direct seeding. ‘Saebonghwang’ can be used in various ways to suit the working conditions of farms, increase farm work efficiency, and expand the area of wet direct-seeding cultivation [ABSTRACT FROM AUTHOR]

Published

2024

24. Planting date and dicamba‐based herbicide programs influence soybean production in the Southern Great Plains.

Author

Kezar, Sarah, Kankarla, Vanaja, and Lofton, Josh

Subjects

CROP yields, SOYBEAN, HERBICIDES, HERBICIDE application, WEED control, SOYBEAN farming, DOUBLE cropping

Abstract

The interplay of management decisions involving soybean (Glycine max L.) planting date, herbicide programs, and herbicide application timings is critical to optimize soybean performance and weed control in Southern Great Plains soybean production systems. This research sought to evaluate soybean yield potential and the level of weed control as influenced by early‐, delayed‐, and late‐ planting dates and various combinations of preemergence (PRE), early‐postemergence (EPOST), and mid‐postemergence (MPOST) weed management programs. A field study was established in Bixby, OK in 2017 and 2018 under irrigated conditions and in Perkins, OK in 2017 under dryland conditions, consisting of three planting windows (early, delayed, and late) of XtendFlex soybean, with or without a PRE (chlorimuron + flumioxazin + pyroxasulfone + glyphosate + dicamba) combined with EPOST or EPOST + MPOST (glyphosate + dicamba) versus no in‐season applications. The gap in late‐planted soybean yield potential, compared to early‐planted soybean, was exacerbated in the dryland systems (1346 kg ha−1) versus an irrigated system (2311 kg ha−1). Use of PRE provided 60% weed control until MPOST and increased yields by 657 kg ha−1 and 457 kg ha−1 for delayed and late‐planted soybean, respectively. Late‐planted soybean with EPOST + MPOST provided up to 50% weed control, but lack of biomass production for cultural control reduced weed control by 29% compared to early‐ and delayed‐planted soybean. From an agronomic management standpoint, the time of soybean planting is influential on the success of weed control measures and soybean yields in double‐cropping system in the Southern Great Plains, particularly with late‐planted soybean. Core Ideas: Application of preemergence resulted in greater yields of late‐planted soybean in dryland and irrigated conditions.Herbicide programs ending at early‐postemergence provided adequate weed control across early and delayed plantings.Late‐planted soybean produced less biomass and required multiple postemergence applications for adequate weed control. [ABSTRACT FROM AUTHOR]

Published

2024

25. Effects of Foliar Spraying of Dicarboxylicdimethylammonium Chloride on Cadmium and Arsenic Accumulation in Rice Grains.

Author

Fu, Lin, Deng, Jiawei, Lao, Dayliana Ruiz, Zhang, Changbo, Xue, Weijie, Deng, Yun, and Luo, Xin

Subjects

ARSENIC, CADMIUM chloride, AMINO acid synthesis, RICE, DOUBLE cropping, FIELD research

Abstract

A field experiment with double cropping rice was carried out to study the foliar application effects of dicarboxylicdimethylammonium chloride (DDAC) on cadmium (Cd) and arsenic (As) accumulation in rice grains. The results showed that the spraying of DDAC could significantly reduce the accumulation of Cd and As in rice grains. The highest reductions in Cd and As content were observed when 1.5 mmol L−1 DDAC was sprayed, with 49.1% and 27.4% reductions in Cd and As content in early rice grains and 56.5% and 28.1% reductions in Cd and As content in late rice grains, respectively. In addition, the content of calcium (Ca) in rice grains increased significantly after DDAC foliar application, which was also conducive to the synthesis of amino acids such as glutamate (Glu), glycine (Gly) and cysteine (Cys) in rice grains. The results indicated that the foliar spraying of DDAC can inhibit the absorption, transport, accumulation and toxicity of Cd and As in rice grains by increasing amino acid synthesis and regulating the absorption and transport of essential elements. [ABSTRACT FROM AUTHOR]

Published

2024

26. Experimental Warming Reduces the Grain Yield and Nitrogen Utilization Efficiency of Double-Cropping indica Rice in South China.

Author

Yang, Taotao, Zou, Jixiang, Wu, Longmei, Bao, Xiaozhe, Jiang, Yu, Zhang, Nan, and Zhang, Bin

Subjects

GRAIN yields, DOUBLE cropping, GLOBAL warming, CROPPING systems, RICE, ATMOSPHERIC temperature, HYBRID rice

Abstract

The effect of climate warming on rice production in China is profound, yet there has been limited research on how it affects the grain yield, nitrogen (N) uptake, and N utilization efficiency (NUtE) of the double-cropping indica rice in South China. To address this gap, we conducted a free air temperature increase (FATI) experiment in Guangdong province during 2020 and 2021. Our findings revealed that warming led to a significant reduction in grain yield, with early rice (ER) and late rice (LR) experiencing average decreases of 5.2% and 6.3%, respectively, compared to control treatments. This decline was primarily attributed to the reduced grain weight of ER and the fewer spikelet numbers per panicle of LR under warming conditions. Although the dry matter translocation, harvest index, and N translocation efficiency of ER remained unchanged under warming conditions, these of LR decreased by an average of 58.1%, 8.8%, and 22.3%, respectively. Additionally, while warming did not affect the N uptake in ER at maturity, it significantly increased the N uptake in LR by an average of 11.0%. Therefore, under warming conditions, the NUtE of both ER and LR was markedly decreased by 6.9% and 15.5% over the two years. These results indicate that climate warming may have significant negative impacts on the grain yield and the NUtE of indica rice within double-rice cropping systems in South China. Understanding these dynamics is vital for maintaining the stability of rice yields in anticipation of future climate warming. [ABSTRACT FROM AUTHOR]

Published

2024

27. Long-Term Organic Manure Retarding Soil Acidity in the Double-Cropping Rice Field of Southern China.

Author

Tang, Haiming, Shi, Lihong, Sun, Geng, Wen, Li, Long, Zedong, Li, Chao, Cheng, Kaikai, Sun, Mei, Li, Weiyan, and Luo, Zunchang

Subjects

*SOIL acidity, *DOUBLE cropping, *PADDY fields, *MANURES, *CROP residues, *POTASSIUM

Abstract

This paper investigates the effects of different long-term (36 years) fertilizer treatments on soil pH, exchangeable acids, exchangeable base cation and cation exchange capacity (CEC) at 0–10 cm and 10–20 cm soil layers in a double-cropping rice field. The following fertilizer treatments were included: chemical fertilizer (MF), rice straw and chemical fertilizer (RF), 30% organic manure and 70% chemical fertilizer (OM), and without any fertilizer input as a control (CK). This result indicated that soil pH at 0–10 cm layer with RF and OM treatments was higher than that of MF and CK treatments. Soil exchangeable acidity content at 0–10 cm and 10–20 cm layers with RF and OM treatments were decreased by 48.4%, 51.6% and 49.2%, 54.2%, compared with CK treatment, respectively. Soil exchangeable calcium (Ca2+), magnesium (Mg2+) and potassium (K+) contents at 0–10 cm and 10–20 cm layers in paddy field with OM and RF treatments were higher than that of CK treatment. Moreover, compared with CK treatment, soil exchangeable base ion content at 0–10 cm and 10–20 cm layers in paddy field with OM treatment were increased by 54.1% and 42.6%, respectively. Soil CEC and effective cation exchange capacity (ECEC) at 0–10 cm and 10–20 cm layers with OM and RF treatments were significantly higher than that of MF and CK treatments. In conclusion, our results indicated that long-term application of crop residue or organic manure can improve soil exchangeable base ion and exchangeable capacity contents, alleviate soil acidity in a double-cropping paddy field. [ABSTRACT FROM AUTHOR]

Published

2024

28. Stover removal has minimal impact on pennycress seeded into standing corn.

Author

Cubins, Julija A., Wells, Samantha, Johnson, Gregg A., Black, Katie L., Perez, Jayleen, Gonch, Ariana, Forcella, Frank, and Gesch, Russ W.

Subjects

*CORN seeds, *CROPS, *DOUBLE cropping, *CORN stover, *SEED yield, *SOYBEAN

Abstract

In the Upper Midwest, corn (Zea mays L.) and soybean [Glycine max (L.) Merr.] are the most prominent agricultural crops, occupying land for only half the year. Their fallow periods are associated with nutrient leaching and soil erosion, but they also represent an opportunity to establish winter‐hardy crops, like pennycress (Thlaspi arvense L.), that can reduce negative environmental impacts while contributing to farm profitability. A lack of agronomic best management practices remains a barrier to pennycress adoption. The objectives of this study were to evaluate the impact of stover presence on pennycress stand establishment and seed yield after seeding pennycress into R4 corn. This study was conducted over the 2014–2015 and 2015–2016 growing seasons with MN106 pennycress at three locations in Minnesota. At maturity, corn plants were removed from plots in 25% increments between 0% and 100% to simulate stover removal scenarios. Pennycress seedlings were unable to compete with corn for available light resources and did not have enough time following corn harvest to establish a dense stand in the autumn with only 5% and 10% green cover in 2014 and 2015, respectively. Despite poor early season emergence, the average seed yield, 1223 kg ha−1, was high relative to other studies using MN106, indicating that challenges of growing pennycress under adverse conditions may not be a barrier to competitive seed yields. Experimentation on the corn–pennycress system should continue in the future to further explore and establish best management practices for this double crop. Core Ideas: Rate of stover removal minimally impacted pennycress germination.Pennycress seedlings provided little autumn soil coverage.Stover removal rate did not affect pennycress seed yield. [ABSTRACT FROM AUTHOR]

Published

2024

29. Responses of potential double cropping areas expansion and appropriate crop management practices to climate change in northern China

Author

Xianzhong Wu, Jinxiang Wang, and Jiujiang Wu

Subjects

climate change, crop management, double cropping, water use efficiency, yield, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456

Abstract

IntroductionGlobal climate change has led to increases in the temperature and decreases in the number of frost days in northern China, facilitating a shift from a single cropping system (SCS, spring maize) to a double cropping system (DCS, winter wheat-summer maize rotation).MethodsTherefore, under the current climate conditions, DCS expansion should be evaluated, and new planting schemes should be explored. In this paper, we identified the areas with potential for DCS in northern China considering an annual accumulated temperature of >0°C. The World Food Studies simulation model was used to simulate the yield, irrigation requirement (IR), and net income under various crop management conditions when considering the maximum yield and water use efficiency (WUE) of crops.ResultsOur results indicated that the potential DCS area increased by approximately 31.51 × 104 km2 in northern China, with the primary DCS areas being located in the provinces of Gansu, Shaanxi, Shanxi, Hebei, and Liaoning. Regarding variety selection, winter wheat and summer maize varieties with early and mid-early maturation were found to be favored for the potential DCS areas. The sowing dates corresponding to the maximum WUEs of the crops were later than those corresponding to the maximum yields. In the potential DCS areas, under the maximum yield condition, the average unit total yield, IR, and net income increased to 2700 kg ha−1, 305 mm, and 607 USD ha−1, respectively, whereas under the maximum WUE condition, increases of 2862 kg ha−1, 284 mm, and 608 USD ha−1, respectively, were observed. The average unit total yield of the DCS was 15927 and 13793 kg ha−1 under the maximum yield and maximum WUE condition, respectively.DiscussionOur findings may clarify the effects of climate change on agricultural production patterns and indicate suitable crop management practices.

Published

2024

30. Climate Change Adaptations of Argentine Viticulture

Author

Prieto, J. A., Bustos Morgani, M., Gomez Tournier, M., Gallo, A., Fanzone, M., Sari, S., Galat, E., Perez Peña, J., Gutiérrez Gamboa, Gastón, editor, and Fourment, Mercedes, editor

Published

2024

31. SUCCEED WITH SUCCESSION.

Author

JABBOUR, NIKI

Subjects

*CULTIVARS, *SEED harvesting, *DOUBLE cropping, *BOK choy, *SEED crops, *RADISHES

Abstract

This article from Horticulture provides tips and recommendations for succession planting in the garden during the summer months. It suggests selecting the right crops and varieties that have enough time to grow and mature before the first fall frost date. The article also advises starting certain crops indoors, watering frequently, creating shade over seeded beds, and planting new pots. Additionally, the article lists specific crops that can be planted in July, including bush beans, cucumbers, summer squash and zucchini, peas, beets, turnips, winter radish, greens, and carrots. The author, Niki Jabbour, is an experienced gardener from Nova Scotia. [Extracted from the article]

Published

2024

32. Comparison of Carbon Footprint Differences in Nitrogen Reduction and Density Increase in Double Cropping Rice under Two Evaluation Methods.

Author

Zhang, Wei, Fu, Zhiqiang, Zhao, Xinhui, Guo, Huijuan, Yan, Lingling, Zhou, Mengyao, Zhang, Leyan, Ye, Yumeng, Liu, Wen, Xu, Ying, and Long, Pan

Subjects

*DOUBLE cropping, *ECOLOGICAL impact, *EVALUATION methodology, *PLANT spacing, *DENSITY

Abstract

Optimized fertilizer use improves crop yield and mitigates environmental pollution associated with crop production. Fertilizer and plant density are core strategies to ensure food security and cope with climate change. However, little is known about the long-term interactive effect of reduced nitrogen (N) and increased density on yield and C (Carbon) balance. In this study, field experiments were conducted in a double-cropping rice region to evaluate long-term effects on yield and carbon footprint (CF) by crop-based and soil-based methods. Treatments were set for 10% reduction in N coupling with conventional density (N1D1), 20% higher density (N1D2), 40% higher density (N1D3), and 20% reduction in N coupling with conventional density (N2D1), 20% higher density (N2D2), and 40% higher density (N2D3), with the prevailing practices as control, conventional plant density, and fertilizer dose. Results showed that the yield continued to increase with increasing density; under the same density, reducing N by 10% is more beneficial for yield improvement and for CH4 emission reduction. Compared with CK, reducing N application by 10% generally increased the annual yields by 7.34–23.25% on average, and reduced CH4 emissions by 16.19–22.11%, resulting in a reduced crop-based carbon footprint of 22.24–26.82%, and a reduced soil-based carbon footprint of 22.08–32.85%. While reducing N application by 20% increased the annual yields by 5.00–20.19% and reduced the CH4 emission by 1.66–4.93%, it reduced crop-based carbon footprints by 1.81–10.05% and reduced soil-based carbon footprints by 7.22–19.86%. As density increased, the crop-based CF decreased, whereas the soil-based CF increased. Overall, the highest yield and the lowest soil-based CF and unit yield CF (CFy) were observed in N1D3. Regarding sustainability, a 10% reduction in N, along with an increase in density to 40%, can be recommended for double-cropping rice production. [ABSTRACT FROM AUTHOR]

Published

2024

33. Adoption of Cereal–Legume Double Cropping toward More Sustainable Organic Systems in the Mediterranean Area.

Author

Scordia, Danilo, Guarnaccia, Paolo, Calderone, Francesca, Maio, Aurora, La Malfa, Tommaso, Scavo, Aurelio, and Gresta, Fabio

Subjects

*DOUBLE cropping, *ORGANIC farming, *CROPPING systems, *LEGUMES, *DURUM wheat, *WEEDS, *EMMER wheat, *FIELD crops

Abstract

Environmental benefits can be achieved by organic farming systems; however, weed pressure and timely crop nutrition remain important drawbacks for many field crops. Agroecological practices, such as double cropping (e.g., intercropping and relay cropping), using forage legume species can provide nitrogen (N) to the companion crop through biological N fixation and tackle weed issues by competing for light, water and land. The present study investigated the effect of intercropping (IC) and relay-cropping (RC) systems of durum wheat (Triticum turgidum subsp. durum (Desf.) Husn) and forage legumes (Trifolium subterraneum L., Medicago polymorpha L., and Lotus corniculatus L.) by varying organic N fertilization with the aim to reduce N-requirement and weed pressure and increase wheat grain yield and grain protein content in Mediterranean organic farming systems. N fertilizer significantly improved wheat grain yield and grain protein, while a null effect on legume and weed biomass yields was found. Double cropping (T. durum-M. polymorpha, and T. durum-L. corniculatus) enhanced wheat grain yield as compared to the control and the T. durum-T. subterraneum. IC significantly improved legume yield, grain protein and the land equivalent ratio (LER) and reduced weed dry biomass as compared with the RC and the control. Among legume species, T. subterraneum outperformed the others and was less affected by the wheat's competitive performance. Nonetheless, M. polymorpha was as effective as T. subterraneum in controlling weeds. Weed dry biomass was linearly reduced by increasing legume yield; the relationship improved by cumulating wheat grain yield to legume yield. Overall, this study indicated that double cropping, especially IC, can be a suitable agroecological practice to tackle weed issues and reduce N-requirement in Mediterranean organic cereal-based systems. [ABSTRACT FROM AUTHOR]

Published

2024

34. Climate risks to soy‐maize double‐cropping due to Amazon deforestation.

Author

Leite‐Filho, Argemiro Teixeira, Soares‐Filho, Britaldo Silveira, and de Oliveira, Ubirajara

Subjects

*DOUBLE cropping, *DEFORESTATION, *CROPPING systems, *MACHINE learning, *ATMOSPHERIC temperature

Abstract

Deforestation in the Brazilian Amazon (BA) for cattle and soybean production has significant consequences for the various aspects of the climate system. Land surface modifications due to deforestation directly influence surface energy and moisture availability, hence impacting rainfall patterns, air temperature and the onset of the agricultural rainy season. Here, we assess the forest loss‐related climate risks for the first and second crop seasons of the soy‐maize double cropping system in the BA. We utilized long‐term, daily, remote sensed climate data and annual land‐use maps as input for a machine learning algorithm to isolate the signal of forest loss on the climate. Our findings indicate that forest loss in the BA intensifies the risks of climate change from the local to the regional geographical scale, with the impact being more pronounced at the regional scale. Between 1999 and 2019, largely deforested regions exhibited a delay of approximately 76 days in the onset of the agricultural rainy season. These regions also experienced a 360 mm decrease in rainfall and an increase in maximum air temperature of 2.5°C. In view of these results, there are collective advantages of halting deforestation. Conservation of the Amazon Forest is vital for maintaining the early onset of the agricultural rainy season, favourable temperatures and adequate rainfall volume needed for attaining high yields in the soy‐maize double cropping system. [ABSTRACT FROM AUTHOR]

Published

2024

35. SEA-Rice-Ci10: High-resolution Mapping of Rice Cropping Intensity and Harvested Area Across Southeast Asia using the Integration of Sentinel-1 and Sentinel-2 Data.

Author

Ginting, Frisa Irawan, Rudiyanto, Rudiyanto, Fatchurahman, Shah, Ramisah Mohd, Soh, Norhidayah Che, Giap, Sunny Goh Eng, Fiantis, Dian, Setiawan, Budi Indra, Schiller, Sam, Davitt, Aaron, and Minasny, Budiman

Subjects

*DOUBLE cropping, *RICE, *AGRICULTURAL mapping, *PADDY fields, *AGRICULTURAL statistics, TROPICAL climate

Abstract

The Southeast Asia region has a vast expanse with diverse tropical climates, making it a prominent centre of rice cultivation, contributing to about 20 % of the world's rice production and contributes 29 % of global rice methane emissions. As a staple food for many countries, accurate and up-to-date information on the rice harvested area is crucial for addressing food security issues, predicting rice yield and methane emissions, and formulating effective government policies. This paper presents the first detailed study of rice cropping intensity and harvested areas throughout Southeast Asia. Current remote sensing products have not been able to produce up-to-date cropping intensity information due to the variability of local cultivation practices. To address this problem, we integrated Sentinel-1A and Sentinel-2A/B time series data from 2020 to 2021 and developed a local unsupervised classification with phenological labelling (LUCK-PALM) method. We implemented the system on the Google Earth Engine (GEE) cloud-based platform to produce geospatial products of rice cropping intensity and harvested area at a spatial resolution of 10 m called SEA-Rice-Ci10s. The results show that Southeast Asia's total rice growing area in 2020–2021 was 28.5 Mha, with 51 % single cropping, 47 % double cropping, and 2 % triple cropping. These were equivalent to 42.9 Mha of annual harvested area, consisting of Thailand (11.2 Mha), Indonesia (8.4 Mha), Myanmar (8.4 Mha), Vietnam (6.3 Mha), Cambodia (3.9 Mha), the Philippines (3.3 Mha), Laos (0.8 Mha), Malaysia (< 0.5 Mha), and Timor-Leste (0.01 Mha). We compared our rice maps to agricultural statistics data at the district and province levels and existing rice maps for some Southeast Asian countries. The results demonstrate that our map agreed well with countries' statistics with a linear coefficient of determination (R2) from 0.85 to 0.97. Compared to existing products, our map can resolve small paddy fields of about 0.2 ha in the hilly areas. This information will be useful in addressing food security challenges and improving estimates of methane emissions from rice cultivation. The 10 m paddy rice cropping intensity map for Southeast Asia, SEA-Rice-Ci10, is available on the GEE App (https://rudiyanto.users.earthengine.app/view/seariceci2021), the Climate TRACE platform (https://climatetrace.org/) and the Zenodo repository (https://doi.org/10.5281/zenodo.10707621) (Frisa Irawan et al., 2024). [ABSTRACT FROM AUTHOR]

Published

2024

36. The Study of Various Regression Models Establishment to Identify Farmland Soil Moisture Content at Different Depths Using Unmanned Aerial Vehicle Multispectral Data: A Case in North China Plain.

Author

Wang, Jingui, Sha, Jinxia, Liu, Ruiting, Ren, Shuai, Zhao, Xian, and Liu, Guanghui

Subjects

SOIL moisture, ARTIFICIAL neural networks, REGRESSION analysis, DOUBLE cropping, SPECTRAL reflectance

Abstract

Soil moisture content is one of the most important soil indices for agriculture production. With the increasing food requirement and limited irrigation water sources, it is of great significance to accurately and quickly measure the soil moisture content for precision irrigation, especially in deficient agricultural areas, such as North China Plain. To achieve this goal, more attention was paid to the application of unmanned aerial vehicle multispectral reflectance technology. However, it was urgent to enhance the regression models between spectral data and soil realistic moisture content, and there were limited studies about the regression research on deep soil layers. Thus, the farmland of winter wheat–summer maize double cropping at Yongnian District, Hebei, North China, was selected as the study area. A six-band multispectral camera mounted on a low-altitude unmanned aerial vehicle (UAV) was used to obtain the field spectral reflectance with bands from 470~810 nm, and meanwhile, soil moisture content at different depths (10, 20, 30, 40, 50, and 60 cm) was measured after maize sowing. Unary linear regression (ULR), multivariate linear regression (MLR), ridge regression (RR), and an artificial neural network (ANN) were employed to establish regression models. The results demonstrated that the sensitive bands of spectral reflectance were 690 nm, 470 nm, and 810 nm. Those models all established significant regression at the depths of 0–20 cm and 40–60 cm, particularly at 10, 50, and 60 cm soil layers. However, for a depth of 20–40 cm, the prediction accuracy was generally lower. Among MLR, RR, and BP models, the MLR exhibited the highest identification accuracy, which was most recommended for the application. The findings of this study provide technical guidance and effective regression for the multispectral reflectance on the farmland of North China Plain, especially for deep soil layer moisture prediction. [ABSTRACT FROM AUTHOR]

Published

2024

37. Management of Seeding Rate and Nitrogen Fertilization for Lodging Risk Reduction and High Grain Yield of Mechanically Direct-Seeded Rice under a Double-Cropping Regime in South China.

Author

Wu, Longmei, Yu, Keru, Zou, Jixiang, Bao, Xiaozhe, Yang, Taotao, Chen, Qingchun, and Zhang, Bin

Subjects

*RICE quality, *GRAIN yields, *DOUBLE cropping, *CENTER of mass, *BENDING moment, *SOWING, *RICE, *SEEDS

Abstract

Precision hill-drop direct seeding using mechanical drilling is a unique direct seeding technique employed in south China that offers advantages such as excellent grain yield and high lodging resistance. Improving yield and lodging-related traits is essential for efforts to improve mechanically direct-seeded rice (MDSR) production. Seeding rates (SR) and nitrogen (N) fertilization rate are two of the main factors affecting grain yield and lodging resistance under MDSR production. However, little information about double-season MDSR production in south China is available. Here, we evaluated yield and lodging risk for two rice cultivars Huanghuazhan, HHZ, lodging-resistant; Xiangyaxiangzhan, XYXZ, lodging-susceptible across two consecutive growing seasons under two under two seeding rates (LSR, 30 cm × 18 cm; HSR, 30 cm × 12 cm) and three N fertilization rates (N1 = 100 kg ha−1, reduced N; N2 = 150 kg ha−1, normal N; and N3 = 200 kg ha−1, enhanced N). We found that increased SR and N fertilization rate improved grain yield and increased lodging risk. SR and N were consistently and positively related to plant height (PH), gravity center height (GCH), the length from the broken basal internode to the panicle tip (SL), the fresh plant weight of the plant part above the broken point (FW), and the length of the two basal internodes. SR and N decreased breaking force (F) and breaking strength (BM), driving increased lodging risk as reflected by increases in lodging index (LI) values. Culm diameter (CD) and culm wall thickness (CWT) did not respond consistently to SR and N treatments. Correlation analysis revealed that PH, GCH, the length of first and second basal internodes, FW, and bending moment for the whole plant (WP) were positively correlated with LI, while F and BM were negatively associated with LI. These findings suggest that the increased lodging risk resulting from high SR could be mitigated by applying appropriate rates of N; that is, this work suggests that grain yield can be maximized and lodging risk minimized by increasing SR while decreasing N fertilization rate. Seasonal differences in the effects of SR and N fertilization should be considered to achieve a high grain yield and maintain high lodging resistance. Our study suggests that increasing SR and decreasing N fertilization can enhance rice grain yield while improving lodging resistance for both varieties. Optimizing grain yield by increasing SR while reducing lodging risk by lowering N application rates may maintain lodging resistance and improve grain yield. [ABSTRACT FROM AUTHOR]

Published

2024

38. Effects of Natural Diffused Light Storage on Highland Seed Potatoes and Subsequent Field Performance in Lowland.

Author

Mou, Wenping, Wang, Kexiu, Hu, Jianjun, Tang, Mingxia, He, Wei, Jia, Weiwei, Xu, Zhiyong, and Luo, Renge

Subjects

*SEED potatoes, *POTATOES, *POTATO seeds, *SEED storage, *SEED harvesting, *DOUBLE cropping

Abstract

Potato (Solanum tuberosum L.) is an essential staple crop in China. Appropriate storage methods and technology are critical to ensure the quality of seed potatoes, which is closely related to the field performance. So far, the diffused light storage (DLS) technique has been widely applied to potato crop. In this paper, two special potato varieties ('Chuanyu 117' and 'Mira') were treated at DLS for 60 days, and the effects of growth conditions on tuber sprouts and subsequent field performance were evaluated. The results showed that the DLS treatment significantly promoted the greening of potato tubers from highland and simultaneously affected the average sprouting rate, sprout length and number of sprouts at different storage stages, which indicated obvious interacting correlations between DLS treatments and potato varieties. Especially for 'Mira', the shortest average sprout length (2.7 mm) was obtained under 40–200 lx light level, while 'Chuanyu 117' had the shortest average sprout length (1.3 mm) under 5–10 lx and its sprout length was also controlled within 2.3 mm under 200–2000 lx. In the cultivation experiment that followed, the potato tubers with 4–6 mm and 2–3 mm sprout length had the highest yield after 90 days and 110 days planting, respectively. Overall, these results demonstrated that for seed potatoes harvested from the highland area followed by storing for 30 days in the lowland, the sprout length can be better controlled at 2–3 mm to obtain short and strong sprouts when stored under 40–200 lx or 200–2000 lx diffused light for 60 days, which is especially suitable in terms of fast field emergence after planting and final tuber yield for the autumn and winter cultivation of potato in the Chengdu Plain. It is also suggested that the DLS technique on seed potatoes could be used in the mixed single and double-cropping areas in Sichuan and other areas with similar geographical and climatic conditions. The findings of this study have several important implications in the storage, transportation, processing as well as seed potato market for commercial practice. [ABSTRACT FROM AUTHOR]

Published

2024

39. Nutrient use efficiency: science to field practice.

Author

Rosolem, Ciro A. and Husted, Soren

Subjects

*EUCALYPTUS, *PLANT breeding, *SUSTAINABLE agriculture, *DOUBLE cropping, *CROPS, *AGRICULTURE, *COMMON bean, *CALCAREOUS soils

Abstract

The article discusses the importance of increasing Nutrient Use Efficiency (NUE) in agriculture to address challenges such as food production, land and water shortage, climate change, and environmental threats. NUE is influenced by various factors including plant nutrient acquisition, plant-microbe interactions, root functioning, and fertilizer management strategies. The article also highlights research presented at the XIX International Plant Nutrition Colloquium, covering topics such as nutrient bioavailability, plant growth-promoting microorganisms, climate change effects on plant nutrition, and field practices to improve nutrient use efficiency. Additionally, the article explores the impact of nutrient deficiencies on human health and the role of mineral nutrition in fruit quality. [Extracted from the article]

Published

2024

40. Fate of fertilizer N applied to maize intercropped with forage grass and recovery of residual N by soybean in a double cropping system.

Author

Gazola, Bruno, Mariano, Eduardo, Andrade, Maria G. O., Costa, Vladimir E., and Rosolem, Ciro A.

Subjects

*DOUBLE cropping, *CROPPING systems, *INTERCROPPING, *CATCH crops, *SOYBEAN, *GREENHOUSE gases, *CORN, *FORAGE plants

Abstract

Background and aims: Understanding the fate of nitrogen (N) in maize (Zea mays L.) intercropped with tropical grass is essential to develop sustainable fertilization recommendations and mitigate greenhouse gas emissions. To test the hypothesis that intercropping forage grass with maize improves yield and fertilizer N recovery in the system, this study evaluated the recovery of N applied to maize intercropped with forage grass grown as a double crop after soybean [Glycine max (L.) Merrill]. Methods: A two–year field experiment was conducted. In each season maize was intercropped with either Guinea grass (Megathyrsus maximus; syn. Panicum maximum) or ruzigrass (Urochloa ruziziensis; syn. Brachiaria ruziziensis) in southeastern Brazil in the presence or absence of N fertilization, followed by a soybean crop. 15N–enriched ammonium sulfate was used to trace the fate of the applied N. Results: Total recovery of fertilizer N by maize differed with season (≈ 35 and 22%) and was greater in the grain than vegetative fractions. Uptake of fertilizer N by intercropped forage grass was less than maize but substantial (≈ 11–18%) After maize harvest more than 60% of the N applied remained in the system, partly in forage grass and maize residues but mostly in soil. Up to 12% of the N applied was recovered by soybean grown in succession. Conclusion: The introduction of either Guinea grass or ruzigrass intercropped with maize can decrease N losses from fertilizer and increase recovery by soybean grown after maize, particularly when maize yield and N uptake are low. [ABSTRACT FROM AUTHOR]

Published

2024

41. Selection of succeeding crops for a double‐cropping system in alpine pastoral areas of the Qinghai–Tibetan plateau.

Author

Ren, Yuxin, Liu, Hancheng, Tian, Xinhui, and Du, Wenhua

Subjects

*PASTORAL systems, *DOUBLE cropping, *OATS, *TRITICALE, *CROP yields, *MOUNTAIN soils, *GRASSLANDS

Abstract

To establish artificial grassland annually, oats, a traditional forage species, are normally cultivated in Qinghai–Tibetan alpine pastoral areas in spring and harvested the same year. Selection a suitable autumn‐sown forage species and succeeding crop, thus harvest of two crops per year, would increase forage yield and quality. We used the triticale variety Gannong No. 2 as an autumn‐sown crop and evaluated the performance of different succeeding crops: B1 (50% triticale and 50% common vetch), B2 (40% rye and 60% common vetch), B3 (50% oats and 50% common vetch), B4 (triticale), B5 (rye), and B6 (oats). We analysed crop productivity and nutrition at two sites in China in 2019 and 2020: Hezuo, and Lhasa. The highest hay yield (15.03 t ha−1) and crude protein content (12.22%) of autumn‐sown triticale as well as the highest average hay yield (6.05 t ha−1) and comprehensive evaluation value (0.80) of the six succeeding crops were obtained at the Lhasa site. At both sites, the succeeding crop with the highest average hay yield (6.30 t ha−1), crude protein content (13.08%), and comprehensive evaluation value (1.00) was B1. In regard to the interaction of environment and succeeding crop, the highest hay yield (8.07 t ha−1) and comprehensive evaluation value (0.95) were obtained with B1 at the Hezuo site. Forage yield and nutrition can be significantly elevated by using autumn‐sown triticale double‐cropped with B1. The results first examine double cropping in alpine pastoral areas, provide a theoretical basis for establishing a double‐cropping cultivation system in this region. [ABSTRACT FROM AUTHOR]

Published

2024

42. The Effect of Nutrient Deficiencies on the Annual Yield and Root Growth of Summer Corn in a Double-Cropping System.

Author

Wang, Chuangyun, Ma, Yankun, Zhao, Rong, Sun, Zheng, Wang, Xiaofen, and Gao, Fei

Subjects

DOUBLE cropping, CORN growth, DEFICIENCY diseases, SUSTAINABLE agriculture, ROOT growth, CROP rotation, CORN

Abstract

The North China Plain has a typical winter wheat–summer corn double-cropping pattern. The effects of nutrient deficiency conditions on the root characteristics and yield of summer corn in the double-cropping system were studied for four years. Long-term monotonous fertilization patterns undermine crop rotation systems and are detrimental to the sustainability of agricultural production. To complement the development of rational fertilization strategies by exploring the response of crop rotation systems to nutrient deficiencies, an experiment was conducted in a randomized complete block design consisting of five treatments with three replicates for each treatment: (1) an adequate supply of nitrogen and phosphate fertilizers and potash-deficient treatment (T1); (2) an adequate supply of nitrogen and potash fertilizers and phosphorus-deficient treatment (T2); (3) an adequate supply of phosphorus and potash fertilizers and nitrogen-deficient treatment (T3); (4) nutrient-sufficient treatment for crop growth (T4); and (5) no-fertilizer treatment (CK). The results showed that different nutrient treatments had significant effects on the root length density (RLD), root surface area density (RSAD), and root dry weight density (RDWD) in summer corn. At the physiological maturity stage (R6), the root indexes of RLD, RSAD, and RDWD were significantly higher in the 0–20 cm soil layer in T4 compared to CK, with an increase of 86.2%, 131.4%, and 100.0%, respectively. Similarly, in the 20–40 cm soil layer, the root indexes of T4 were 85.7%, 61.3%, and 50.0% higher than CK, with varied differences observed in the other nutrient-deficient treatments. However, there was no significant difference among the treatments in the 40–60 cm layer except for T4, whose root index showed a difference. The root fresh weight and root dry matter in T4, T3, T2, and T1 were increased to different degrees compared with CK. In addition, these differences in root indexes affected the annual yield of crops, which increased by 20.96%, 21.95%, and 8.14% in T4, T2, and T1, respectively, compared to CK. The spike number and the number of grains per spike of T4 were 10.8% and 8.3% higher than those of CK, which led to the differences in summer corn yields. The 1000-kernel weight of T4, T2, and T1 were 9.5%, 8.8%, and 7.4% higher than that of CK, whereas the determining nutrient was nitrogen fertilizer, and phosphorus fertilizer had a higher effect on yield than potassium fertilizer. This provides a theoretical basis for the effect of nutrient deficiency conditions on yield stability in a double-cropping system. [ABSTRACT FROM AUTHOR]

Published

2024

43. Impacts of Climate Change Scenarios on the Corn and Soybean Double-Cropping System in Brazil.

Author

Bigolin, Tiago and Talamini, Edson

Subjects

DOUBLE cropping, SCIENTIFIC knowledge, CLIMATE change, SOYBEAN, CLIMATE change adaptation, CROPS, CORN

Abstract

Brazil is one of the main producing and exporting countries of corn and soybean and a continental country with climatic diversity that allows the cultivation of these crops in various agricultural systems. Double cropping is a widely adopted system throughout the national territory, where it is possible to cultivate soybeans at the beginning of the growing season, followed by corn in succession, in the same growing season. The present study aims to systematize the scientific knowledge about the impacts of future climate change scenarios on yield and on the double-cropping system of soybean + corn in Brazil. Systematic review procedures were adopted. The soybean yield is projected to increase in all regions of Brazil under all climate scenarios. Corn yields under future climate scenarios are projected to decline, with the subtropical climate region being less affected than the northern regions. The double-cropping systems of soybean + corn tend to present increasing climate risks in tropical climate regions. Climate change scenarios point to a delay in the start of the rainy season that will delay the sowing of soybeans, consequently delaying the sowing of corn in succession, resulting in fewer rainy days to complete its cycle. [ABSTRACT FROM AUTHOR]

Published

2024

44. Effect of Swathing or Direct Combining on Yield, Seed Losses and Costs of Camelina.

Author

Pari, Luigi, Cozzolino, Luca, Marsac, Sylvain, Hermet, Louise, and Bergonzoli, Simone

Subjects

*DOUBLE cropping, *CROP management, *CAMELINA, *SEED crops, *CROP losses

Abstract

Camelina is an interesting crop and producers must adopt cultural practices to achieve the highest yield and oil content possible. Considering the size of the seed, the harvesting phase is crucial to reduce losses and maximize income. Furthermore, in recent years, with the worsening of climatic conditions due to global warming, crop management can no longer follow the classic seasonality but must adapt to new climatic conditions. The possibility of double cropping, that is the process of producing two crops in a single season, allows multiple advantages such as weed control, greater remuneration, and less exposure to bare soil which determine greater resilience of the production system. To enable this, especially in recent years, even a few days of difference in the cultivation phases can guarantee the success of double cropping. For these reasons, the authors compared two different harvesting strategies: direct combining at full maturity (DC); swathing + combining at full maturity (SW). The working performance, cost, and seed losses associated with each harvesting method were calculated. The results highlighted how SW reduced the crop cycle length by 11 days, did not influence seed losses and crop yield but showed lower performance and higher cost with respect to DC. [ABSTRACT FROM AUTHOR]

Published

2024

45. Response of Nitrification and Crop Yield to the Presence of NBPT and DCD in a Wheat-Corn Double Cropping System.

Author

Qu, Zhaoqi, Xia, Xuejing, Liu, Dan, Dong, Huimin, Pan, Tingliang, Feng, Haojie, Lou, Yanhong, Wang, Hui, Yang, Quangang, Yang, Zhongchen, Pan, Hong, and Zhuge, Yuping

Subjects

*DOUBLE cropping, *CROPPING systems, *CROP yields, *NITRIFICATION, *NITROGEN fertilizers, *WINTER wheat

Abstract

The excessive application of nitrogen fertilizer aggravated the loss of nitrogen in farmland and exerted detrimental effects on the soil and water environment. Examining the effects of N-(n-Butyl)thiophosphoric triamide (NBPT) and nitrification inhibitor dicyandiamide (DCD) on nitrification and crop yield in wheat-corn double cropping systems would provide valuable insights for improving nitrogen efficiency and ensuring a rational application of inhibitors. A field experiment lasting one and a half years was performed in the winter wheat–summer maize double agroecosystem in North China. The four treatments that were applied included (I) conventional fertilization without inhibitors (CK), (II) conventional fertilization with 0.26 g/m2 NBPT (NBPT), (III) conventional fertilization with 1.00 g/m2 DCD (DCD), and (IV) conventional fertilization with 0.26 g/m2 NBPT and 1.00 g/m2 DCD (NBPT + DCD). The results demonstrated that the combined use of NBPT and DCD exerted better effects in reducing NO3−-N leaching. Nitrification could be inhibited for up to 95 days by combining NBPT and DCD, while 21 days by DCD. Ammonia-oxidizing archaea (AOA) (R2 = 0.07159, p < 0.01) along with ammonia-oxidizing bacteria (AOB) (R2 = 0.09359, p < 0.01), rather than a complete ammonia oxidizer (comammox), were significantly and positively correlated with NO3−-N content, which indicated that the ammoxidation process was mainly regulated by AOA and AOB, instead of comammox in the winter wheat–summer maize double agroecosystem in North China. [ABSTRACT FROM AUTHOR]

Published

2024

46. Tillage with Crop Residue Returning Management Increases Soil Microbial Biomass Turnover in the Double-Cropping Rice Fields of Southern China.

Author

Tang, Haiming, Li, Chao, Shi, Lihong, Wen, Li, Li, Weiyan, Cheng, Kaikai, and Xiao, Xiaoping

Subjects

*TILLAGE, *CROP residues, *DOUBLE cropping, *PADDY fields, *SOIL management, *BIOMASS

Abstract

The variety of soil microbial biomass carbon (SMBC), soil microbial biomass nitrogen (SMBN) content, and the flux turnover rate of SMBC and SMBN for 0–10 cm and 10–20 cm layers in a paddy field in southern China with different tillage practices were studied. The tillage experiment included conventional tillage and crop residue returning (CT), rotary tillage and crop residue returning (RT), no–tillage and crop residue returning (NT), and rotary tillage with all crop residues removed from the paddy field as a control (RTO). The result showed that the SMBC and SMBN contents at 0–10 cm and 10–20 cm layers in the paddy field with CT, RT, and NT treatments were significantly increased. This result indicates that the flux turnover rate of SMBC and SMBN for 0–10 cm and 10–20 cm layers in the paddy field with CT treatment were increased by 65.49%, 39.61%, and 114.91%, 119.35%, compared with the RTO treatment, respectively. SMBC and SMBN contents and the flux turnover rate of SMBC and SMBN for the 0–10 cm layer were higher than that of the 10–20 cm layer in paddy fields under the same tillage condition. Therefore, applying rotary tillage or conventional tillage and crop residue returning produced beneficial management for increasing soil microbial biomass content and its turnover under a double–cropping rice system in southern China. [ABSTRACT FROM AUTHOR]

Published

2024

47. The QTL and Candidate Genes Regulating the Early Tillering Vigor Traits of Late-Season Rice in Double-Cropping Systems.

Author

Wu, Wei, Zhang, Tian-Tian, You, Li-Li, Wang, Zi-Yi, Du, Si-Qi, Song, Hai-Yan, Wang, Zao-Hai, Huang, Ying-Jin, and Liao, Jiang-Lin

Subjects

*DOUBLE cropping, *LOCUS (Genetics), *RICE, *EUCLIDEAN algorithm, *SINGLE nucleotide polymorphisms

Abstract

Rice effective panicle is a major trait for grain yield and is affected by both the genetic tiller numbers and the early tillering vigor (ETV) traits to survive environmental adversities. The mechanism behind tiller bud formation has been well described, while the genes and the molecular mechanism underlying rice-regulating ETV traits are unclear. In this study, the candidate genes in regulating ETV traits have been sought by quantitative trait locus (QTL) mapping and bulk-segregation analysis by resequencing method (BSA-seq) conjoint analysis using rice backcross inbred line (BIL) populations, which were cultivated as late-season rice of double-cropping rice systems. By QTL mapping, seven QTLs were detected on chromosomes 1, 3, 4, and 9, with the logarithm of the odds (LOD) values ranging from 3.52 to 7.57 and explained 3.23% to 12.98% of the observed phenotypic variance. By BSA-seq analysis, seven QTLs on chromosomes 1, 2, 4, 5, 7, and 9 were identified using single-nucleotide polymorphism (SNP) and insertions/deletions (InDel) index algorithm and Euclidean distance (ED) algorithm. The overlapping QTL resulting from QTL mapping and BSA-seq analysis was shown in a 1.39 Mb interval on chromosome 4. In the overlap interval, six genes, including the functional unknown genes Os04g0455650, Os04g0470901, Os04g0500600, and ethylene-insensitive 3 (Os04g0456900), sialyltransferase family domain containing protein (Os04g0506800), and ATOZI1 (Os04g0497300), showed the differential expression between ETV rice lines and late tillering vigor (LTV) rice lines and have a missense base mutation in the genomic DNA sequences of the parents. We speculate that the six genes are the candidate genes regulating the ETV trait in rice, which provides a research basis for revealing the molecular mechanism behind the ETV traits in rice. [ABSTRACT FROM AUTHOR]

Published

2024

48. Economic Performance of Rainfed Wheat-Double Crop Systems under Weed Competition.

Author

Maples, Chellie H., Lambert, Dayton M., and Manuchehri, Misha R.

Subjects

WEED competition, CROPPING systems, ECONOMIC indicators, DOUBLE cropping, NO-tillage

Abstract

This study examines the economic performance of rainfed cropping systems endemic to the Southern Great Plains under weed competition. Cropping systems include tilled and no-till wheat-fallow, wheat-soybean, and wheat-sorghum rotations. Net returns from systems are compared under different levels of weed pressure. Producers operating over longer planning horizons would choose to double-crop regardless of the tillage method used and weed pressure level. Producers operating under shorter planning horizons would implement wheat-fallow systems when weed pressure is high and double crop when weed pressure is low. [ABSTRACT FROM AUTHOR]

Published

2024

49. Yield response and water productivity of soybean (Glycine max L.) to deficit irrigation and sowing time in south-eastern Australia

Author

Ketema Zeleke and Claas Nendel

Subjects

APSIM, Australia, Double cropping, Evapotranspiration, Growth stage, Water stress, Agriculture (General), S1-972, Agricultural industries, HD9000-9495

Abstract

The aim of this study was to investigate irrigation strategies and sowing dates that would maximise soybean yield and water productivity. It is based on field experiments conducted during two seasons and simulation modelling. Irrigation treatments were 33%, 66%, 66% plus 100% during pod development and pod-fill stages, and 100% of crop evapotranspiration (ETc). In the first season experiment, cvs. Bidgee and Snowy were sown on 15 Nov. In the second season, cv. Bidgee was sown on 15 Nov and 15 Dec. Five sowing dates (1, 15, 30 Nov and 15, 31 Dec) and eight irrigation scenarios were analysed in-silico using the crop model APSIM. For the simulations, the first four irrigation scenarios were set by applying 50%ETc during one of the four growth stages: vegetative stage, flowering stage, pod development and pod-filling stage, and maturity stage. The other five irrigation treatments were 0%ETc, 25%ETc, 50%ETc, 75%ETc, and 100%ETc throughout the growing season. Soil water content and above-ground dry matter were measured at regular time intervals. Seed yield, 100-seed weight, oil and protein contents were determined at harvest. Water deficit during pod development and pod-filling stage had significant effect on seed yield. The flowering stage was the next most sensitive stage for water deficit. During both cropping seasons, the 33% treatment yielded 51% of the fully irrigated reference. The latter had a significantly higher water productivity than all the deficit treatments. Early-sown soybean had higher yield than the late sown soybean. Sowing as late as early December was found to be still suitable for double cropping without significant yield loss. The result of this study is particularly useful for soybean farmers in water-scarce regions, such as south-eastern Australia, who practice double cropping with a tight cropping calendar.

Published

2024

50. Timing of fertilizer applications and rice cropping systems at riparian wetland in South Sumatra, Indonesia.

Author

Kartika, Kartika, Lakitan, Benyamin, Kadir, Sabaruddin, Wijaya, Andi, Siaga, Erna, Widuri, Laily I., Lindiana, Lindi, and Meihana, Mei

Subjects

*CROPPING systems, *DOUBLE cropping, *RIPARIAN areas, *WETLANDS, *FIELD research, *TROPICAL crops, *RICE, *FERTILIZER application

Abstract

The low efficiency of fertilizer application in association with the inappropriate practice cropping system is two of the reasons for the low productivity of rice in tropical riparian wetland ecosystem. This study evaluated the response of rice to the timing and splitting of fertilizer application at different cropping patterns in a tropical riparian wetland ecosystem. Ciherang, a commonly cultivated rice variety, was utilized during this study. The field experiment was laid on a split-plot design with timing and splitting of fertilizer applications on different days after transplanting (DAT) as the main plot and cropping system as a subplot. The main plot consisted of T1=15 DAT, T2=30 DAT, T3=45 DAT, T4=15+30 DAT, T5=15+45 DAT, T6=30+45 DAT, and T7=15+30+45 DAT. The subplots included: P1=Common farmers' practice and P2= Double row cropping system (P2). The results showed the highest plant height, shoot dry weight, grains per panicle, and yield of 98.89 cm, 66.58 g, 3.14 g, and 673 g m−2, respectively, were obtained in the T7 treatment. Meanwhile, regarding cropping pattern, the highest plant height, number of tillers, root dry weight, total dry weight, number of productive tillers, and grains per panicle of 96.46 cm, 29.01, 28.50 g, 85.7 g, 23.23, and 83.74 g respectively, were obtained in P1. The combination of T7 and P2 resulted in the highest yield (745 g m−2). Therefore, the fertilizer application at 15+30+45 DAT (T7) and utilization of a double-row cropping system (P2) is recommended for rice cultivation in the tropical riparian wetland area. [ABSTRACT FROM AUTHOR]

Published

2023