Your search keyword '"planting density"' showing total 1,713 results

1. Differences in Grain Yield and Nitrogen Uptake between Tetraploid and Diploid Rice: The Physiological Mechanisms under Field Conditions.

Author

Xiao, Jian, Xiong, Zhuang, Huang, Jiada, Zhang, Zuolin, Cai, Detian, Xiong, Dongliang, Cui, Kehui, Peng, Shaobing, and Huang, Jianliang

Abstract

Research indicates that, owing to the enhanced grain-filling rate of tetraploid rice, its yield has notably improved compared to previous levels. Studies conducted on diploid rice have revealed that optimal planting density and fertilization rates play crucial roles in regulating rice yield. In this study, we investigated the effects of different nitrogen application and planting density treatments on the growth, development, yield, and nitrogen utilization in tetraploid (represented by T7, an indica–japonica conventional allotetraploid rice) and diploid rice (Fengliangyou-4, represented by FLY4, a two-line super hybrid rice used as a reference variety for the approval of super rice with a good grain yield performance). The results indicated that the highest grain-filling rate of T7 could reach 77.8% under field experimental conditions due to advancements in tetraploid rice breeding. This is a significant improvement compared with the rate seen in previous research. Under the same conditions, T7 exhibited a significantly lower grain yield than FLY4, which could be attributed to its lower grain-filling rate, spikelets per panicle, panicle number m−2, and harvest index score. Nitrogen application and planting density displayed little effect on the grain yield of both genotypes. A higher planting density significantly enhanced the leaf area index and biomass accumulation, but decreased the harvest index score. Compared with T7, FLY4 exhibited a significantly higher nitrogen use efficiency (NUEg), which was mainly due to the higher nitrogen content in the straw. Increasing nitrogen application significantly decreased NUEg due to its minimal effect on grain yield combined with its significant enhancement of nitrogen uptake. Our results suggest that the yield and grain-filling rate of T7 have been improved compared with those of previously tested polyploid rice, but are still lower than those of FLY4, and the yield of tetraploid rice can be further improved by enhancing the grain-filling rate, panicle number m−2, and spikelets per panicle via genotype improvement. [ABSTRACT FROM AUTHOR]

Published

2024

2. Optimizing Planting Density, Irrigation, and Nitrogen Application Can Improve Rapeseed Yield in Xinjiang's Aksu by Reducing the Lodging Rate.

Author

Guo, Wenbo, Li, Haifeng, Simayi, Silayiding, Wen, Yunmeng, Bian, Qingyong, Zhu, Jinquan, Liu, Zhigang, Su, Hanming, Wei, Yanhong, Liu, Guohong, and Fu, Yanbo

Abstract

This study aimed to investigate the effects of planting density, irrigation volume, and nitrogen application on the resistance of rapeseed to lodging and yield and to provide technical support for achieving high yield and lodging resistance. We employed an L9 (34) orthogonal array, different planting densities, irrigation levels, and nitrogen applications to investigate their impact on rapeseed lodging and yield. The results showed the following: (1) Irrigation had the greatest effect on rapeseed lodging. This effect was most pronounced for the combination (A3B3C2), which exhibited the most severe lodging phenomenon (90%). Planting density had the greatest effect on yield, and the optimal combination was A2B2C3, which reached 3744 kg/hm2 in 2023 and 3420 kg/hm2 in 2024. (2) The agronomic practices increased the content of lignin, cellulose, hemicellulose, crude fiber, pectin, and soluble sugar fractions in the stalks by enhancing their flexural, puncture, and stress resistance. This led to the highest yield while reducing the rate of lodging. This emphasizes the importance of agricultural practices for rapeseed lodging and yield, providing critical insights into rapeseed cultivation in the Aksu region of Xinjiang. [ABSTRACT FROM AUTHOR]

Published

2024

3. 栽培因子对狮山菜薹主要农艺性状和经济效益的影响.

Author

胡新洲, 何 泉, 安正云, 张钟, 李艳兰, 刘坚坚, 安建南, 李 祥, 张迪, 张 娜, and 杨进成

Abstract

To explore the optimal sowing date, planting density and fertilizer dosage of Shishan rapeseed, to realize the combination of good breeding and high yield cultivation techniques in the suitable area of Yuxi City. Using three-factor and three-level orthogonal test, we researched the optimal sowing date, planting density and fertilizer dosage of Shishan rapeseed in Yuxi City, as well as the effects of shoot, seed yield and economic benefit. The effects of three factors on shoot yield from big to small were in the order of sowing date, planting density,urea dosage;the effects of three factors on seed yield from big to small were in the order of planting density,sowing date,urea dosage, the shoot and seed yield difference of each treatment reached a significant level, sowing date had significant effects on the first picking time, harvesting days, times and growth period of Shishan rapeseed. Planting density was negatively correlated with shoot thickness, fresh weight per shoot, pod number and pods per plant. However, the effect of urea dosage amount on growth period and agronomic traits was not obvious. The optimal combination of cultivation factors for Shishan rapeseed were September 30 for planting date, 60 000 plants/ hm² for density, 375 kg/hm² for urea at seedling stage, the yield of fresh shoot could reach 31 183. 8 kg/hm², seed yield could reach 1 888. 75 kg/hm², the net income was 165 200 yuan/hm², output-input ratio was 3. 55, and the economic benefits were relatively high. [ABSTRACT FROM AUTHOR]

Published

2024

4. 绿肥种植密度对咖啡幼龄园杂草群落及咖啡生长的影响.

Author

付兴飞, 李贵平, 李亚男, 黄家雄, 邰杰, 胡发广, and 李亚麒

Abstract

Copyright of Journal of Ecology & Rural Environment is the property of Journal of Ecology & Rural Environment Editorial Office 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

5. Effects of Planting Density and Nitrogen Fertilization on Growth Traits and Leaf and Wood Characteristics of Three Poplar Clones.

Author

Wang, Hongxing, Jiang, Luping, Zhang, Feifan, and Zhao, Xiyang

Abstract

A comprehension of the effects planting density and nitrogen (N) fertilization have on the physiological and morphological characteristics of trees is critical for optimizing the require size and characteristics of wood products. We evaluated the growth traits and the leaf and wood characteristics of three clone poplars including Populus simonii × P. nigra 'Xiaohei', 'Xiaohei-14' and 'Bailin-3' under five planting densities (1666, 1111, 833, 666, and 555 tree ha−1) and four N fertilization rates (0, 100, 160, and 220 g tree−1 year−1). The results show that the clone type significantly affected all observed indicators, while planting density and N fertilization treatments had a significant effect on growth traits and leaf characteristics, but not on wood characteristics. Specifically, the clone 'Bailin-3' exhibited the largest annual increments in tree height and diameter at breast height (DBH), leaf width, N content, and soluble protein content. A decrease in initial planting density (from 1666 to 555 tree ha−1) led to an increased annual incremental tree height and DBH, regardless of clone type and N fertilization treatment. N fertilization treatment significantly impacted the annual increment in DBH, but not that of tree height. Further, the annual increments in tree height and DBH were positively correlated with leaf width, N content, chlorophyll content, and soluble protein content, and negatively correlated with hemicellulose content. In addition, the chlorophyll and soluble protein contents were identified as the most reliable predictors of the annual increments in tree height and DBH. Our results demonstrate the clone 'Bailin-3' with 555 tree ha−1 under 160 g N tree−1 yr−1 showed superior growth traits and leaf characteristics. Thus, it is recommended for future poplar silviculture of larger diameter timber production at similar sites. The results contribute to understanding of the effects of planting density and fertilization on the growth traits and the leaf and wood characteristics of three poplar clones, offering valuable guidance for the sustainable development and long-term productivity of poplar plantations. [ABSTRACT FROM AUTHOR]

Published

2024

6. Influence of Some Stimulative Substances and Planting Density on Olive Fruit Characteristics Cv. (Toffahi) under Soil Salinity.

Author

Ali, A. A. M. and Gad, M. M. M.

Subjects

PLANT spacing, SOIL salinity, GLUTAMIC acid, POTASSIUM silicate, DRIED fruit

Abstract

Copyright of Journal of Plant Production is the property of Egyptian National Agricultural Library (ENAL) 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

7. The success of Quercus ilex plantations in agricultural fields in eastern Spain.

Author

García-Fayos, P., Molina, M. J., Espigares, T., Tormo, J., Orduna, Y., Nicolau, J. M., López-Gurillo, B., Moreno de las Heras, M., and Bochet, E.

Subjects

SOIL permeability, AGRICULTURAL policy, TREE farms, AGRICULTURE, HOLM oak

Abstract

Twenty-five years after planting, we measured the survival, growth and reproduction of 153 Quercus ilex plantations promoted by the afforestation programme of the European Union's Common Agricultural Policy in agricultural fields in the east of the Iberian Peninsula, as a function of climatic aridity and stand characteristics related to water supply and competition among trees for water. Using field sampling, we found that, on average, 80% of the trees in plantations survived, more than 55% had already produced acorns and the tallest tree in each field exceeded 4 m, which are all higher values than those reported for forest plantations of this species in the same area and which represent the overcoming of the limitations imposed by climatic aridity on the natural regeneration of the species. A small proportion of the variation in all success variables was explained by water-related plantation characteristics, such as planting density, drought intensity in the year after planting, and soil permeability. However, climatic aridity only influenced the proportion of reproductive trees, but not the other variables of plantation success. However, most of the variation in planting success variables was linked to who owned the field, which nursery produced the seedlings, and the year of planting. Our results support the idea that the deep soils of agricultural fields counteract the negative effect of climatic aridity on plant performance, but that it is necessary to standardise nursery and planting practices, adapt planting density to the environmental characteristics of the site and provide irrigation supply in the early years to ensure the success of future plantations. [ABSTRACT FROM AUTHOR]

Published

2024

8. 不同种植密度对引大灌区青贮玉米产量和品质的影响.

Author

柴尔政, 马佳丽, 张红娟, 宋淑珍, 张真荣, 李 平, and 李浩霖

Subjects

FEED analysis, PLANT spacing, CROP yields, PLANT stems, PLANT yields

Abstract

Copyright of Journal of Irrigation & Drainage is the property of Journal of Irrigation & Drainage Editorial Office 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

9. Influence of planting density on yield and quality of forage maize in the Yinda Irrigation District

Author

CHAI Erzheng, MA Jiali, ZHANG Hongjuan, SONG Shuzhen, ZHANG Zhenrong, LI Ping, and LI Haolin

Subjects

yinda irrigation region, silage maize, planting density, yield, quality, Agriculture (General), S1-972, Irrigation engineering. Reclamation of wasteland. Drainage, TC801-978

Abstract

【Objective】 Forage maize is a crop cultivated in the Yinda Irrigation District in Gansu province, China. This paper investigates the influence of planting density on its growth, yield and quality. 【Method】 The variety of Long Silage No.1 was used as the model plant. The field experiments compared five planting densities: 5.6×104 plants/hm2 (M1), 6.8×104 plants/hm2 (M2), 8.0×104 plants/hm2 (M3), 9.2×104 plants/hm2 (M4), and 10.4×104 plants/hm2 (M5). In each treatment, we measured plant traits, yield and quality of the plant at its maturity stage. 【Result】 ① Plant height and stem thickness both varied with planting density parabolically. With the increase in planting density, cob length, cob thickness, fresh cob weight, the number of rows of grains and the number of rows in cobs all increased first and then decreased when planting density exceeded 8.0×104 plants/hm2. ② With the increase in planting density, fresh grass, hay and kernel yields increased to 182 146.72 kg/hm2, 91 054.35 kg/hm2, and 24 278.68 kg/hm2, respectively, when planting density was 8.0×104 plants/hm2, and then decreased after planting density exceeded 8.0×104 plants/hm2. ③ Compared with M4 and M5, M3 increased the crude protein by 8.31% and 12.49%, the crude starch by 10.58% and 15.71%, and the fat contents by 10.38 and 19.71%, respectively. It was found that the neutral washing fiber was the highest in M5 and the least in M3. Compared to M3, M5 increased the neutral detergent fiber by 7.78%. 【Conclusion】 A planting density of 8.0×104 plants/hm2 is optimal for yield and quality of forage maize cultivated in the Yinda Irrigation District.

Published

2024

10. Carbon Sequestration Function of Pinus sylvestris var. mongolica Plantation and Its Responses to Climate Factors on the Southern Edge of Horqin Sandy Land

Author

LANG Minghan, ZHANG Risheng, FAN Shenghao, XIAO Wei, JIANG Tao, LU Yuan, LI Shuyang, and LIU Siqi

Subjects

carbon storage, carbon sink, gm (1,1) model, planting density, plantation, Environmental sciences, GE1-350, Agriculture

Abstract

[Objective] This study aims to investigate the carbon storage, carbon sink function, and response mechanism to climate in Pinus sylvestris var. mongolica plantations with different initial planting densities on the southern edge of Horqin Sandy Land. The goal is to facilitate the assessment of the carbon sequestration function and adaptive management of forest ecosystems. [Methods] Estimating carbon storage and carbon sequestration rate of Pinus sylvestris plantations using stand height and cross-sectional area, and analyzing their responses to temperature, precipitation, and evaporation in conjunction with meteorological factors. The GM (1,1) grey prediction model was used to predict forest carbon storage in 2030. [Results] The carbon storage and sequestration rate of Pinus sylvestris plantations with different initial planting densities exhibited similar annual fluctuations, with an overall increase in carbon storage each year. The curve of the sequestration rate showed a “U” shape. Both thinly and excessive initial planting densities can reduce the carbon carbon sequestration capacity of Pinus sylvestris plantations. Before reaching 32 years old, the highest carbon sequestration intensity was observed in stands with initial planting densities of 1 500~2 000 tree/hm2, and for stands aged 35~46 years, the optimal density was 1 000~1 200 tree/hm2. The carbon storage increased logarithmically with increasing stand density.The response pattern of the planted Pinus sylvestris forests’carbon sequestration rate differed among stands with different initial planting densities regarding temperature but not precipitation. For high and extremely high-density Pinus sylvestris plantations, the average temperature in August of the previous year and in March, May, June and July of the current year were the main climatic factors limiting carbon sink. For low and medium-density plantations, the average temperature in August of the previous year and in March and October of the current year were the main climatic factors that constrain carbon sink. The correlation analysis between evapotranspiration and carbon sequestration rate in different planting density stands showed that carbon sink of low-density Pinus sylvestris plantations was more sensitive to evapotranspiration. Based on the GM (1,1) grey model, it was found that excessively high or low initial planting density would reduce the carbon sequestration potential of future Pinus sylvestris plantations. The optimal planting density for carbon sequestration rate was 1 772 tree/hm2. [Conclusion] The initial planting density of Pinus sylvestris has a significant impact on carbon storage and carbon sequestration, as well as their response to climate change in sandy areas. Adjusting the initial planting density may be one of the key adaptive management measures for Pinus sylvestris plantations under climate change.

Published

2024

11. 品种和种植密度 对木薯茎叶生物量及营养品质的影响.

Author

宋记明, 刘光华, 段春芳, 姜太玲, 李月仙, 肖明昆, 沈正松, and 严炜

Subjects

*PLANT spacing, *CULTIVARS, *MEMBERSHIP functions (Fuzzy logic), *PLANT yields, *PLANT drying, *CASSAVA

Abstract

The study aimed to explore the impact of variety and planting density on the yield, agronomic traits, and nutritional quality of cassava stems and leaves. Using cassava varieties including GR891, YRS No. 2 and SC205 as experimental materials, a randomized block design with variety (A) and planting density (B) as two factors was conducted in the dry and hot valley region of Yunnan with seven planting densities for field comparative experiments. The results showed that the yield of cassava stems and leaves first increased and then decreased with the increase of planting density, with higher stem and leaf yields obtained by planting according to B6 and B5, indicating that lower planting density was more suitable for the accumulation of dry matter in stems and leaves compared to higher planting density. Plant height increased with the increase of planting density, while stem thickness gradually decreased. From the perspective of the average membership function, varieties A1 and A3 showed the best nutritional quality when planted according to B4, and variety A2 showed the best nutritional quality when planted according to B2, with relatively higher crude protein content. Among the different varieties, A2 and A3 had superior yield, agronomic traits, and nutritional quality compared to A1. The study indicates that YRS No.2 is the most suitable variety for planting in the dry and hot valley region of Yunnan, with the optimal planting density of 50 000 plants/hm2, which can yield higher biomass of stems and leaves and has excellent nutritional quality. [ABSTRACT FROM AUTHOR]

Published

2024

12. Optimizing Wheat Planting Density by Adjusting Population Structure and Stabilizing Stem Strength to Achieve High and Stable Yields.

Author

Feng, Suwei, Shi, Chenchen, Wang, Peiyu, Chang, Sujing, Liu, Chaoyang, Shen, Chenwei, Li, Shilong, Hu, Tiezhu, and Ru, Zhengang

Subjects

*PLANT spacing, *POPULATION density, *FIELD research, *PRODUCTION methods, *PLANT stems

Abstract

Increasing wheat (Triticum aestivum L.) planting density is the most effective production management method for increasing yields; however, excessive crop populations under high planting densities may experience elevated risk of stem lodging. We conducted this study to assess the relationship between reduced lodging and increased yield, investigate the effects of planting density on wheat population structure, stem strength, and material transport, and provide a basis for rationale planting densities. The experiments were carried out using a split-plot design with three replicates. The main plots contained two wheat varieties: Bainong 5819 (BN5819) and Bainong 4199 (BN4199), and the sub-plots contained four planting density treatments: 90 × 104 plants/ha (D1), 180 × 104 plants/ha (D2), 270 × 104 plants/ha (D3), and 360 × 104 plants/ha (D4). A two-year field trial was conducted in 2021–2023. The relationships between population structure characteristics, changes in stem strength, activation, and retransport of stem material after anthesis, and achievement of high and stable yields were investigated at the different planting densities. When the planting density of wheat increased from D1 to D4 treatment, the activity of fructan hydrolase was significantly increased. Compared with D1 treatment, the highest activity of fructan hydrolase was increased by 457.47 μg/h/g under D4 treatment. At the same time, the increase of density also increased the contribution rate of dry matter accumulation (CDMA) to grain after anthesis increased, with the highest increase in CDMA at 33.67%, which significantly reduced stem strength. Correlation analysis revealed a significant negative association between CDMA and stem strength. Specifically, CDMA levels were significantly lower with the D3 treatment than the D4 treatment, while stem strength remained higher after anthesis as an adaptive response to mitigate lodging risk. Stem storage compounds can promote grain filling and a weight increase in inferior grains. The number of spikes per unit area increased significantly with increasing planting density, but the number of grains per spike and 1000-grain weight decreased significantly. In two years, the number of spikes in D3 treatment increased by a maximum of 211.67 × 104 ha−1 and 99.17 × 104 ha−1, respectively, compared to D1 and D2 treatments. The number of grains per spike was significantly higher than that of D4 treatment, the highest being 3.68 grains. Therefore, in the North China Plain with suitable water, fertilizer, and temperature, the sowing density of 270 × 104 plants/ha established population structure, significantly reduced CDMA, maintained post-anthesis stem strength, enhanced resilience of stems against post-anthesis lodging, and resulted in high yields by stabilizing the number of grains per spike and increasing the number of wheat spikes. [ABSTRACT FROM AUTHOR]

Published

2024

13. Balancing Yield and Environmental Impact: Nitrogen Management and Planting Density for Rice in Southwest China.

Author

Guo, Song, Yu, Hua, Zeng, Xiangzhong, Shangguan, Yuxian, Zhou, Zijun, Li, Xuyi, Liu, Zhigang, He, Mingjiang, Luo, Xing, Ouyang, Yiting, Liu, Su, Wei, Liguo, Qin, Yusheng, and Chen, Kun

Subjects

*SUSTAINABLE agriculture, *NITROGEN fertilizers, *PLANT spacing, *CLIMATE change mitigation, *GREENHOUSE gases, *RICE quality, *PADDY fields

Abstract

With growing concerns about global warming, it is crucial to adopt agronomic practices that enhance rice yields from paddy fields while reducing greenhouse gas (GHG) emissions for sustainable agriculture. An optimal nitrogen (N) fertilization rate and planting density are vital to ensure high rice yields, minimize GHG emissions, and understand emission behavior for better field management. We hypothesized that optimizing N application rates and planting density to improve nitrogen use efficiency (NUE) in rice cultivation would reduce resource losses and GHG emissions. To test this hypothesis, we implemented five treatments with a rice straw return cultural system: two planting densities (16 hills m−2 (traditional density, D1) and 20 hills m−2 (25% higher density, D2)) and three N application rates (no N fertilizer (N0), 180 kg N ha−1 (N1), and 144 kg N ha−1 (N2)). The control treatment (CK) was traditional planting density with no N fertilizer. The four new cropping modes were N1D1, N1D2, N2D1, and N2D2. We investigated the effects of N application rates and planting density on rice grain yield, NUE, and GHG emissions in multiple rice-growing seasons. The N1D2 treatment exhibited the highest grain yield over the three years, with a value of 10,452 kg ha−1, representing an increase of 12.2% compared to CK. Moreover, N uptake in N1D2 was the highest, averaging 39.2% (p < 0.05) higher than CK, and 8.5%, 3.5%, and 2.8% (p < 0.05) higher than N1D1, N2D1 and N2D2, respectively. N2D2 exhibited the highest NUE, with a value of 58.99 kg kg−1, surpassing all other treatments over the three years. GHG emissions, global warming potential (GWP), and greenhouse gas intensity (GHGI) in N2D2 were lower than in N1D1, N1D2, and N2D1. Additionally, reducing N application (comparing N1D1 to N2D1) and increasing plant density (comparing N1D1 to N1D2) improved N agronomic efficiency (NAE) and N partial productivity (PFPN). The negative correlation between the NAE and PFPN with GWP and GHG emissions further supports the potential for optimized N management and denser planting density to reduce environmental impact. These findings have important implications for sustainable rice cultivation practices in Southwest China and similar agroecosystems, emphasizing the need for integrated nutrient management strategies to achieve food security and climate change mitigation goals. [ABSTRACT FROM AUTHOR]

Published

2024

14. Leveraging Wheat Competition to Manage Seasonal Expansion of Feathertop Rhodes Grass (Chloris virgata).

Author

Hasanfard, Alireza and Chauhan, Bhagirath Singh

Subjects

*PLANT spacing, *SEED industry, *WHEAT, *FACTORY design & construction, *CROPS

Abstract

Utilizing the potential of crops to suppress weeds is an important strategy for sustainable management. Feathertop Rhodes grass (FTR) (Chloris virgata Sw.) is a problematic warm-season weed in Australia that has recently expanded into colder seasons. This study investigated the growth and seed production of FTR at two planting times (May and July) and three wheat planting densities (0, 82, and 164 plants m−2) using a neighborhood design over two years. In both years, the plant height, tiller production, and panicle production of FTR were lower in the presence of wheat compared to when wheat was absent. Surrounding FTR with wheat delayed its pinnacle emergence, varying from 1 to 6 days in the first year and 4 to 21 days in the second year, depending on the planting date and wheat density. During both years and planting times, wheat's presence caused approximately a 99% decrease in the dry matter and seed production of FTR compared to wheat's absence. Additionally, the wheat height, an important competitive factor, was higher at both densities in the May planting compared to the July planting. The emergence, establishment, and continuous production of FTR seeds throughout the year indicate that inadequate management could result in the further spread of this weed. Our findings suggest that adjusting the date and density of wheat planting could be a viable strategy for sustainably managing this weed during colder seasons. [ABSTRACT FROM AUTHOR]

Published

2024

15. 科尔沁沙地南缘樟子松人工林碳汇及对气候因子的响应.

Author

郎明翰, 张日升, 凡胜豪, 肖 巍, 姜 涛, 卢 元, 李书杨, and 刘思琪

Subjects

CARBON sequestration in forests, CARBON sequestration, SCOTS pine, CARBON cycle, PLANT spacing

Abstract

Copyright of Journal of Soil & Water Conservation (1009-2242) is the property of Institute of Soil & Water Conservation 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

16. Species and Stand Management Options for Wood Production from Small Grower Plantations in Central Vietnam.

Author

Harwood, Christopher E., Toan, Le Xuan, Dinh, Pham Xuan, and Nambiar, E. K. Sadanandan

Subjects

MANGIUM, WIND damage, PLANT spacing, TREE mortality, SMALL capitalization stocks, EUCALYPTUS

Abstract

Acacia hybrid (Acacia mangium Willd. × A. auriculiformis A. Cunn. Ex Benth.) dominates plantation wood production in central Vietnam. Dependence on a single species may increase biological risks. The potential of eucalypt as an alternative was examined by comparing the growth and survival of acacia hybrid and eucalypt hybrid (Eucalyptus urophylla S.T. Blake × E. pellita F. Muell.) clones in Quang Tri province at three planting densities (1333, 1667 and 2222 trees ha−1). The experiment was planted on an eroded shallow soil common in the region. At age 5 years, survival of acacia (74%) was higher than that of eucalypt (67%), a consequence of high mortality from wind damage for one eucalypt clone. Eucalypt was taller by about 2 m, but stem diameters of acacia and eucalypt were very similar. For both taxa, diameter decreased significantly as planting density increased. Across planting densities, mean standing volume was 107 and 108 m3 ha−1 for acacia and eucalyptus, respectively. Linear regressions of stocking at 5 years on volume accounted for over half of the variance in acacia and eucalypt plot volumes, demonstrating the strong effect of stocking on yield. There were similarly strong effects of stocking on stem diameter. Acacia hybrid plantations of nearby small growers had stockings at age 5 years that averaged over 2500 stems ha−1. Growers planted at higher densities and allowed their trees to multi-stem. Their standing volumes at age 5 years ranged from 83 to 102 m3 ha−1. Understanding how to reduce tree mortality would assist growers to choose planting densities and stand management that optimise growth, log diameter classes and net returns. [ABSTRACT FROM AUTHOR]

Published

2024

17. Optimal Planting Density Increases the Seed Yield by Improving Biomass Accumulation and Regulating the Canopy Structure in Rapeseed.

Author

Lin, Guobing, Wang, Long, Li, Yiyang, Li, Jing, Qian, Chen, Zhang, Xia, and Zuo, Qingsong

Subjects

SEED yield, PLANT spacing, PLANT yields, PLANT biomass, PLANTING, RAPESEED

Abstract

Planting density is an important factor affecting plant growth and yield formation in rapeseed. However, the understanding of the mechanism underlying the impact of planting density on biomass, canopy, and ultimate seed yield remains limited. A field experiment was conducted to investigate the effect of planting density on seed yield, yield components, biomass accumulation and partitioning, and canopy structure. Five planting density levels were set as D1 (2.4 × 105 plants ha−1), D2 (3.6 × 105 plants ha−1), D3 (5.4 × 105 plants ha−1), D4 (6.0 × 105 plants ha−1), and D5 (7.2 × 105 plants ha−1). The results showed that with planting density increasing from D1 to D3, the seed yield, number of pods in population, and 1000-seed weight increased, while seedling survival rate, yield per plant, number of pods per plant, and number of seeds per plant decreased. When planting density increased to D4 and D5, seed yield dramatically decreased due to a decreased number of seeds per pod and 1000-seed weight. Increasing planting density from D1 to D3 increased biomass accumulation in all organs. D3 produced the highest biomass partitioning in seeds. In addition, D2 and D3 treatments had a high level of pod area index (5.3–5.8), which caused an approximately 93% of the light to be intercepted. The distribution of light in D2 and D3 was more evenly spread, with the upper and lower parts of the canopy displaying a distribution ratio of roughly 7:3. Therefore, D2 and D3 produced the highest seed yields. In conclusion, D2 and D3 are recommended in rapeseed production due to their role in improving biomass accumulation and partitioning and canopy structure. [ABSTRACT FROM AUTHOR]

Published

2024

18. 种植密度和灌水量对商豆 151产量的影响.

Author

邹露阳, 闫向前, 付汝洪, 陈悦, 李新文, and 孙化军

Abstract

In order to explore the efficient cultivation techniques of soybean variety Shangdou 151 in the eastern region of Henan, field experiments were conducted. Three planting densities (180 000, 225 000, 270 000 plants/hm²) and three irrigation quotas (70, 100, 130 mm) were set up to investigate their effects on the water use efficiency, yield and composition factors of Shangdou 151. The results showed that both planting density and irrigation amount significantly affected the yield. When the planting density was E3 and the irrigation quota was W1, the yield and water use efficiency both reached the maximum values of 2 491.77 kg/hm² and 8.27 kg/(hm² mm). The analysis of variance results showed that the effects of planting density, irrigation amount and their interaction on yield traits reached a significant level, such as pod number per plant, grain number per plant and grain weight per plant. [ABSTRACT FROM AUTHOR]

Published

2024

19. Effects of Planting Density and Nitrogen Management on Light and Nitrogen Resource Utilization Efficiency and Yield of Summer Maize in the Sichuan Hilly Region.

Author

Lei, Hao, Zhou, Fang, Cai, Qianyi, Wang, Xinglong, Du, Lunjing, Lan, Tianqiong, Kong, Fanlei, and Yuan, Jichao

Subjects

*NITROGEN fertilizers, *PLANT spacing, *SOLAR radiation, *NITROGEN in soils, *POLLUTION

Abstract

The low efficiency of light and nitrogen resources, poor yield and profit, and environmental pollution of maize production are main problems in many areas of China. We hypothesized that optimizing nitrogen fertilizer density management strategies could alleviate the above issues. To address this, a 3-year on-site experiment with three planting densities and four nitrogen rates was conducted in the Sichuan Hilly Region. The results indicated that increasing the planting density could increase the extinction coefficient and solar radiation interception of maize populations as well as enhance the utilization efficiency of light and nitrogen resources and yield. For every 100 kg ha−1 increase in nitrogen fertilizer, RUE increased by 0.16%, NUE decreased by 25.0%, and soil apparent nitrogen loss quantity increased by 67.8 kg ha−1. There was a certain interaction between planting density and nitrogen rate. The appropriate planting density and nitrogen rate combination was 67,500 plants ha−1 with 180 kg N ha−1 under the experimental condition. Excessive close planting in weak-light areas and excessive nitrogen reduction after densification are not advisable. This study indicated that nitrogen–density strategies should be matched with the local natural resources such as sunlight. The results provide a theoretical for high-yield and high-quality maize production in these areas. [ABSTRACT FROM AUTHOR]

Published

2024

20. Effects of Nitrogen Fertilizer and Planting Density on Growth, Nutrient Characteristics, and Chlorophyll Fluorescence in Silage Maize.

Author

Han, Xinran, Xiao, Xu, Zhang, Jiamin, Shao, Mingyu, Jie, Yucheng, and Xing, Hucheng

Subjects

*EFFECT of fertilizers on plants, *NITROGEN fertilizers, *PLANT spacing, *CHLOROPHYLL spectra, *FERTILIZER application

Abstract

The optimal combination of the nitrogen fertilizer application and planting density with reference to the silage maize yield and quality remains unclear. We hypothesized that increasing both would increase yields following the law of diminishing returns. Yayu26, a silage maize cultivar, was used in a split-plot experiment to investigate the effects of nitrogen fertilizer and planting density on growth, nutrient characteristics, and chlorophyll fluorescence. The main plots were assigned to three planting densities: 60,000 (A1), 75,000 (A2), and 90,000 (A3) plants hm−2, and the subplots were assigned to four nitrogen fertilizer rates: 0 (B1), 120 (B2), 240 (B3), and 360 (B4) kg hm−2. The results showed that increasing the nitrogen application rate and planting density both enhanced silage maize yield. Nitrogen accumulation and agronomic use efficiency peaked at a planting density of 75,000 hm−2. Structural equation modeling showed that the nitrogen application rate and planting density affected nitrogen accumulation and nutrient properties by influencing chlorophyll fluorescence parameters and nitrogen agronomic efficiency, ultimately resulting in a positive effect on the yield. The A3 × B2 treatments exhibited higher nitrogen accumulation, potentially compensating for any deficiencies in the dry-matter yield. Therefore, the A3 × B2 treatment was evaluated as the optimal treatment to achieve sustainable and economically feasible silage maize production. [ABSTRACT FROM AUTHOR]

Published

2024

21. 青贮玉米应用现状以及其栽培措施研究进展.

Author

王新友

Abstract

Forage maize, with its rich nutrition and high palatability, is an important crop in the develop‐ ment of animal husbandry. With the rapid devel‐ opment of animal husbandry in our country and the continuous advancement of the policy of "changing crop to forage", Chinese forage maize industry has developed rapidly, and the yield and quality have greatly improved. However, the plant‐ ing area of forage maize is limited, and most vari‐ eties are traditional. How to improve the yield and quality of forage maize with limited resources is an urgent problem to be solved in forage maize industry. At present, many in-depth studies have been carried out on the cultivation measures of forage maize. In this paper, the current status of forage maize and the research on its high yield and quality cultivation in recent years are reviewed, including the ef‐ fects of cultivation measures on the yield and quality of forage maize, such as variety selection, planting mode, planting density, nitrogen fertilizer application and harvest time. It also covers the research related to the use of forage maize in cultivating animals. The aim of the paper is to provide important reference for the quality production of forage maize. [ABSTRACT FROM AUTHOR]

Published

2024

22. Effects of Decreasing Hill Number per Unit Area Combined with Increasing Seedling Number per Hill on Grain Quality in Hybrid Rice.

Author

Xiao, Zhengwu, Zhang, Ruichun, Cao, Fangbo, Liu, Longsheng, Chen, Jiana, and Huang, Min

Subjects

*HYBRID rice, *RICE quality, *GRAIN, *LEAF area index, *RICE, *SEEDLINGS, *FIELD research

Abstract

Hill number per unit area and seedling number per hill are foundational agrotechnical factors shaping the growth and development of rice plants. This study aimed to determine the effects of decreasing the hill number per unit area combined with increasing the seedling number per hill on grain quality in hybrid rice. Field experiments were performed in Hengyang, Hunan Province, China, in 2022 and 2023 using the hybrid rice variety Huazheyou 261, as well as in Liuyang, Hunan Province, China, in 2023 using the hybrid rice varieties Yueyou 2646 and Zhenliangyouyuzhan. Treatments (combining hill number per unit area and seedling number per hill) encompassed a combination of 24 hills per m2 and one seedling per hill (H24S1) and a combination of 14 hills per m2 and three seedlings per hill (H14S3) in Hengyang, as well as a combination of 28 hills per m2 and two seedlings per hill (H28S2) and a combination of 14 hills per m2 and four seedlings per hill (H14S4) in Liuyang. There were no significant differences in the leaf area index at the heading stage, as well as no significant differences in canopy light transmittance during the grain-filling period between H24S1 and H14S3 in Hengyang, or between H28S2 and H14S4 in Liuyang. The differences in grain quality traits, including milling traits (brown, milled, and head rice rate), appearance traits (rice length, rice length-width ratio, chalky grain rate, and chalkiness degree), amylose and protein content, and pasting characteristics were also not significant between H24S1 and H14S3 in Hengyang, nor between H28S2 and H14S4 in Liuyang. This study indicates that the grain quality in hybrid rice is unaffected by decreasing the hill number per unit area integrated with increasing the seedling number per hill. [ABSTRACT FROM AUTHOR]

Published

2024

23. Impact of Key Agronomic Traits on Economic Yield Traits in Anhui Rice (Oryza sativa L. spp. japonica).

Author

Ren, Yi, Xu, Ending, Zhang, Peijiang, Zhan, Xinchun, He, Qingyuan, and Zou, Yu

Subjects

*RICE, *PLANT spacing, *GRAIN yields, *RICE quality, *AMYLOSE, *GENOTYPES

Abstract

Nitrogen (N) application rates and planting density are key factors affecting grain yield and quality. In this experiment, four varieties, Huijing 753 (HJ 753), Huijing 855 (HJ 855), Huijing 866 (HJ 866), and Dangjing 8 (DJ 8), were used to investigate their effects on the yield and quality of japonica rice in Anhui, which has a lower soil N supply capacity. The current study set four levels of N application N1, N2, N3, and N4 (120, 180, 240, and 300) kg ha−1 and three planting densities D1, D2, and D3 (high-density: 45 × 104; medium-density: 37.5 × 104; low-density: 32.2 × 104) hills ha−1 for a total of 12 treatments. The effects of N application and planting density on rice yield, composition, processing quality, appearance quality, and cooking quality were analyzed. The results showed that with the increase in N application rates and planting density, the effective panicle number per plant and grain number per panicle of each rice variety increased, while HJ 753, HJ 855, and HJ 866 reached the highest yield under the N3D1 treatment and then gradually declined, and DJ 8 had the highest yield in the N4D1 treatment. In addition, the processing quality of various varieties can be improved by increasing the N application rate and planting density, but the appearance quality will deteriorate, the amylose content will also decrease, and gel consistency will also be lower. Therefore, under medium-planting density conditions, N at a rate of 240 kg ha−1 was the best for HJ 753, HJ 855, and HJ 866, and using 300 kg ha−1 for DJ 8 resulted in high grain yields and superior rice grain quality. In the next step, physiological, biochemical, and genotypic analyses of these three japonica rice varieties were carried out to provide a scientific basis and technical support for accelerating the breeding of high-yield japonica rice varieties. [ABSTRACT FROM AUTHOR]

Published

2024

24. Effects of planting density with nitrogen rate on regulation of nitrogen utilization in summer direct seeded cotton.

Author

XU Ze, WU Xin-Ling, LIU Zhen-Yu, LI Han-Jia, LENG Xin-Hua, WU Tian-Fan, CHEN Yuan, ZHANG Xiang, and CHEN De-Hua

Abstract

In order to clarify the effects of planting density with nitrogen rate on regulation of nitrogen utilization in summer direct seeded cotton, the CCRI 425 were used as the experimental materials in the Key Laboratory of Genetics and Physiology of Yangzhou University in 2019 and 2020. Density were used as the main treatments in 2019 and three levels of density of 60,000 plants hm-2, 90,000 plants hm-2, and 120,000 plants hm-2 were set. Nitrogen application rate as the secondary treatments and four levels of convention nitrogen application rate (0 kg hm-2, 90 kg hm-2, 150 kg hm-2, and 210 kg hm-2) were conducted. Production application (90,000 plants m-2, 180 kg hm-2 nitrogen application rate) was used as the CK. Under the density of 120,000 plants hm-2, there were four levels of convention nitrogen application rate (0 kg hm-2, 90 kg hm-2, 150 kg hm-2, and 210 kg hm-2). The results showed that cotton seed yield was increased, reaching 4147.8-5119.2 kg hm-2, at the density of 12x104 plants hm-2 with nitrogen application of 150 kg hm-2. The dry matter of reproductive organs was 2605.6-2863.6 kg hm-2 and accounted for over 50% of the total dry matter weight. Nitrogen accumulation in reproductive organs was significantly increased, reaching 45.97-60.70 kg hm-2. Nitrogen use efficiency was significantly increased, nitrogen recovery efficiency (NRE) was 42.58%-44.17%, agronomic nitrogen use efficiency (aNUE) was 7.16-21.34 kg (kg N) -1, physiological nitrogen use efficiency (pNUE) was 19.16-24.03 kg (kg N) -1, partial productivity of nitrogen fertilizer (NPP) was 21.12-34.13 kg (kg N) -1. Regression analysis further showed that nitrogen recovery efficiency, nitrogen agronomic efficiency, nitrogen physiological efficiency, and physiological efficiency were linearly positively correlated with yield. The percentage of open bolls reached 43.59%-60.76% before spraying defoliation and ripening agent and the normal flocculation rate could be achieved after spraying defoliation and ripening agent. Therefore, high-density with medium nitrogen rate is beneficial to nitrogen absorption and utilization, which provides the technical support for high yield, high efficient production, and nitrogen reduction in cotton. [ABSTRACT FROM AUTHOR]

Published

2024

25. Impact of planting density and shoot thinning on alstroemeria flowering, soil attributes and cost economics

Author

Anshul Kumar, Bharati Kashyap, S.R. Dhiman, Sabhya Pathania, Abeer Hashem, Elsayed Fathi Abd_Allah, and Uday Sharma

Subjects

Alstroemeria, Capri, Planting density, Shoot thinning, Yield, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

A field experiment was conducted to assess the impact of various planting densities and levels of shoot thinning on cut flower yield, quality, soil chemical properties and cost economics in the commercially cultivated alstroemeria cultivar 'Capri'. The experiment involved three planting densities (4, 6 and 8 plants/m2) along with three shoot thinning levels (10 %, 20 % and 30 %). It was observed that higher planting density (4 plants/m2) promoted the length of cut stem, early bud formation, and flowering, optimal quality parameters, including maximum stem thickness, cut stem weight, floret quantity/stem, floret size, number of flowering stems/plant (yield) and vase life. Exclusive use of higher vegetative mass removal (30 % shoot thinning) was found to improve quality parameters such as the length of cut stem, number of flowering stems, stem thickness, weight of cut stem, floret quantity/stem, floret size, vase life, and early flowering. Soil samples were collected from each treatment and the consequent lab analysis revealed that the lower planting density and shoot thinning level resulted in maximum soil organic carbon, nitrogen, phosphorous and potassium content. In conclusion, planting density of 4 plants/m2 and 30 % shoot thinning emerged as the optimal combination for enhancing quantitative parameters in commercial alstroemeria cultivation. The study underscores the importance of strategic planting practices and vegetative mass management for maximizing yield and quality in alstroemeria production, along with ensuring higher economic returns.

Published

2024

26. Enhancing maize radiation use efficiency under high planting density by shaping canopy architecture with a plant growth regulator

Author

Guanmin Huang, Yuling Guo, Weiming Tan, Mingcai Zhang, Zhaohu Li, Yuyi Zhou, and Liusheng Duan

Subjects

Canopy architecture, Maize, Plant growth regulator, Planting density, Radiation use efficiency, Agriculture (General), S1-972, Agricultural industries, HD9000-9495

Abstract

Optimized maize (Zea mays L.) canopy architecture enhances density-tolerance. DHEAP (N, N-Diethyl-2-hexanoyl oxygen radicals-ethyl amine (2-ethyl chloride) phosphonic acid salt) has been shown to increase maize upper canopy strata compactness, but its overall effect on the whole canopy structure and how it shapes the canopy structure remain unclear. This study examined how DHEAP affected the canopy structure of maize hybrids Zhengdan 958 (ZD958) and Xianyu 335 (XY335), with distinct canopy structures, under different planting densities. The results showed that DHEAP increased the leaf orientation value (LOV) of upper canopy strata by 8.0% while reducing middle and lower strata LOV by 11.7% and 18.4%, respectively. This indicates that DHEAP shaped a canopy structure that was compact in the upper strata and loose in the middle and lower strata. Multiple linear regression analysis showed that leaf angle had a greater impact on the upper canopy strata, while leaf auricle size had a greater impact on the middle and lower canopy strata. After DHEAP treatment, light transmission above different canopy strata increased at the reproductive stage. Concurrently, the middle canopy captured more light energy, enhanced yield formation, and boosted radiation use efficiency by 21.9% under high density. In terms of grain yield, DHEAP treatment resulted in a 9.1% and 23.9% increase in ZD958 and XY335, respectively, under high-density conditions. These results suggest that DHEAP shaped the maize canopy structure with high density tolerance, improved the distribution of light within the canopy, and increased grain yield.

Published

2024

27. Optimizing the nitrogen application rate and planting density to improve dry matter yield, water productivity and N-use efficiency of forage maize in a rainfed region

Author

Yongli Lu, Renshi Ma, Wei Gao, Yongliang You, Congze Jiang, Zhixin Zhang, Muhammad Kamran, and Xianlong Yang

Subjects

Rainfed agriculture, N fertilizer rate, Planting density, Dry matter yield, Water productivity, Agriculture (General), S1-972, Agricultural industries, HD9000-9495

Abstract

Appropriate nitrogen (N) fertilization and planting density management are critical for efficient production of grain maize (Zea mays L.) and for environmental protection. However, the optimal N fertilization and planting density is still not established for forage maize that is cultivated to promote its vegetative growth and utilized for the above-ground vegetative mass. A two-year field experiment was conducted in the rainfed semiarid region of the Chinese Loess Plateau during the 2021 and 2022 growing seasons. The effects of N application rates and planting densities on the dry matter yields and the water- and N-use efficiencies of forage maize were studied. The experiment includes four N application rates (0, 90, 180, and 270 kg ha−1) and three plant densities (70000, 90000, and 110000 plants ha−1), covering the conventional practices of local farmers. The treatments were organized in a randomized complete block design with four replications. Averaged over the three plant densities, N application rate of 180 kg ha−1 resulted in the maximum average aboveground dry matter yield (18.6 t ha−1), crop N accumulation (228.5 kg ha−1), dry matter water productivity (51.9 kg ha−1 mm−1), and dry matter precipitation productivity (62.9 kg ha−1 mm−1) over the two years. Moreover, increasing N application rates significantly increased the soil nitrate-N accumulation (0–200 cm) but reduced the partial factor productivity of applied N fertilizer. Across the three plant densities, the two-year average soil nitrate-N accumulation was 12.6, 32.1, and 75.7 % higher with 90, 180, and 270 kg N ha−1 compared to no N treatment, respectively. The highest soil nitrate accumulation under 270 kg ha−1 N application rate in 2021 (229.5 kg ha−1) and in 2022 (329.7 kg ha−1) may cause severe nitrate leaching loss and potential soil water contamination, driven by intensive rainfalls. Averaged over the four N rates, planting density of 110000 plants ha−1 increased the crop N accumulation and PFP by 21.2 % and 15.8 % in 2021, compared to 70000 plants ha−1, respectively. The interaction of N application and planting density significantly affected the aboveground dry matter yield, crop water consumption, dry matter precipitation productivity, and crop N accumulation in 2021, but the effect was non-significant in 2022. Based on these findings, application of 180 kg N ha−1 and planting density of 110000 plants ha−1 are suggested as an efficient management strategy for improving productivity of forage maize and soil water and N resources utilization in the arid region of the Loess Plateau and similar areas.

Published

2024

28. Soil enzymatic activity, nutrient dynamics and biplot analysis under varied plant population and nutrient management in machine-planted chickpea.

Author

Karthika, M., Rekha, K. Bhanu, Sudhakar, K. S., Madhavi, A., Triveni, S., and Rajaiah, P.

Subjects

*CHICKPEA, *ACID phosphatase, *SEED harvesting, *SOILS, *PHOSPHORUS in soils, *ALKALINE phosphatase

Abstract

Soil dehydrogenase (14.2, 11.3 mg TPF g-1 day-1), alkaline phosphatase (109.5, 86.7 mg PNP g-1 soil h-1), acid phosphatase (69.7, 51.6 mg PNP g-1 soil h-1) and urease activity (60.4, 39.9 mg NH4 g-1 2 h-1) in chickpea at flowering and harvest with seed rate @ 105 kg ha-1. Among, nutrient management the corresponding activity (14.9, 11.7 mg TPF g-1 day-1), (120.7, 96.7 mg g PNP g-1 soil h-1), (70.5, 52.7 mg g PNP g-1 soil h-1) was higher with 75% RDF + microbial consortia (MC). Contrarily, urease activity (62.3, 38.7 mg g NH4 g-1 2 h-1), soil available soil nitrogen (181.3, 179.0 kg ha-1) and phosphorus (78.3, 76.5 kg ha-1) were higher under 125% RDF + MC. PCA indicated that among nutrient management, first principal component explained 71.37% variability to urease activity, available soil potassium and dehydrogenase activity and second component (22.34%) to available soil phosphorus and nitrogen. Among planting density, first component explained variability (66.87%) to acid phosphatase and second component (32.11%) to available phosphorus. [ABSTRACT FROM AUTHOR]

Published

2024

29. 施肥量与种植密度对田润189玉米主要农艺性状及产量的影响.

Author

卢亚妮, 侯青光, 李宏滇, 黄柄壬, 韦贵剑, and 丘立杭

Abstract

A new maize variety Tianrun 189 was selected as experimental material, and a two-factor split plot design was adopted. Three treat- ments of density level were set up(Al treatment 42 000 plants/hm²; A2 treatment 48 000 plants/hm²; A3 treatment, 54 000 plants/hm²). 4 fertilizer application level treatments were as follows: B1 was treated with conventional fertilizer, 750 kg/hm² compound fertilizer and 150 kg/hm² urea; B2, B3 and B4 treatments were treated with slow-release fertilizer 600,750 and 900 kg/hm², respectively. The main agro- nomic characters, yield and economic benefit of maize variety Tianrun 189 under 3 densities and 4 fertilization levels were studied. Results showed that planting density, fertilizer amount and interaction between fertilizer amount and planting density had significant or extremely signifi- cant effects on plant characters, ear traits and yield. Under different planting densities, A3 had the highest yield of Tianrun 189, was significant or extremely significant higher than treatment Al, but showed no significant differences with A2 treatment. Under different fertilization amount, B4 treatment had the highest yield of Tianrun 189, was extremely higher than B2 treatment, but had no significant differences with B3 and B1. Under the interaction between fertilizer amount and planting density, A3B1 treatment had the highest yield in spring sowing, which reached 8 494.50 kg/hm and was significantly higher than A3B2 treatment. But A3B4 and A3B3 treatments had no significant differences. In autumn sowing, A3B4 treatment had the highest yield (8276.50 kg/hm²) but had no significant differences with A3B1 and A3B3 treatments. Accord- ing to the economic benefits, benefits of B2, B3 and B4 treatments were all higher than normal application treatment B1, and B3 treatment had the highest benefit, reaching 12 353.59 Yuan/hm², was 10.77% higher than B1 treatment. In general, proper density of Tianrun 189 was 48 000-54 000 plants/hm². Under this density, applying 750-900 kg/hm² slow release compound fertilizer (N-P2O5-K2O=24-6-10) could obtain better yield and economic benefit. [ABSTRACT FROM AUTHOR]

Published

2024

30. 种植密度和品种对荞麦抗倒伏能力和产量的影响.

Author

李倩, 刘小进, 封伟, 邢燕, 李海涛, and 闫明伟

Abstract

[Objective] To study the effects of different planting densities and varieties on the lodging resistance and yield of buckwheat. [Method] A two factor completely randomized block design was adopted with 5 varieties, 3 planting densities, and a total of 15 treatment. The lodging resistance traits of buckwheat under different treatments were measured, including the length and outer diameter of the first, second, and third internodes, center of gravity height, apparent lodging rate and stem snapping resistance. The differences in economic traits, such as plant grain weight, 100-grain weight and plot yield were compared. [Result] The apparent lodging rate of Xinong D4103 was significantly lower than that of other varieties, and the plot yield of treatment P5M3 was significantly higher than those of P1M3 and P3M3. However, there were no significant differences in the apparent lodging rate and yield between the same variety and different planting densities. The correlation analysis results showed that the apparent lodging rate of buckwheat was significantly positively correlated with plant height, center of gravity height, number of main stem nodes and length of the second internode. There was significant positive correlation between length of the third internode, outer diameter of the first internode and the apparent lodging rate of buckwheat. There was a significant positive correlation between plot yield and length of the first and second internodes. [Conclusion] The variety had significant impact on the apparent lodging rate and yield. Xinong D4103 had good lodging resistance and could be used as a material for future research on lodging resistant varieties. The highest yield was obtained with a planting density of 750 000 plants/hm² for the ZiTQ13-05 variety, which was suitable for planting in northern Shaanxi. [ABSTRACT FROM AUTHOR]

Published

2024

31. 水稻群体分蘖动态模型构建与应用.

Author

王小卉, 李绪孟, 唐启源, 邹　丹, 罗友谊, 李可夫, 彭　剑, 李　灿, and 曹乐平

Abstract

Here a dynamic model was developed on the tiller number of the rice population. The double Logistic model was also used to quantitatively analyze the dynamic process of the tiller occurrence and the extinction. A set of indicators was defined to describe the tillering dynamics, including the total number of growing tillers(Ng ), the total number of dead tillers(Nd ), the number of retained tillers(Nr ), the start time of tillering(Tst), the peak time of tillering(Tpt), the end time of tillering(Tet), the start time of tillers death(Tsd), the peak time of tillers death(Tpd), the end time of tillers death(Ted), the duration of tillering(Dt ), the duration of tillers death(Dd ), the inherent rate of tillering(Rit), the inherent rate of tillers death(Rid), the maximum tillering rate(Rmt), the maximum tillers death rate(Rmd). According to the temporal characteristics of the rice tillering, the formula was derived to calculate the indicators of the tillering dynamics. The goodness and adaptability of the model were tested with the dynamic datasets of the rice tillers under different genotypes, transplanting, sowing time, and transplanting density. The model and the indicators were used to explore the dynamic tillering response to the cultivation density. The results were as follows. (1) The model shared the better fitting for the dynamic dataset of rice tillers under different genotypes, transplanting, planting time, and transplanting density. The standard root mean square error (SRMSE) was followed by the Gamma distribution with the mean was less than 5% and and 99% SRMSE less than 10%. (2) The dynamic indicators and model parameters of tillers after calculation showed a better response to the cultivation density. Taking the planting density test of Huiliangyou 898 as an example, the number of tillers per unit area was accelerated and then slowed down after transplanting at 15 to 33.75 hills/m². The number of tillers per unit area reached the peak at 45-50 d after transplanting. After the peak, the number of tillers per unit area decreased rapidly and then slowed down slowly. There was no change in the number of tillers per unit area about 70 d after transplanting. Tpt and Tpd were about (26±3) d and (54±3) d after transplantation, respectively. An outstanding trend was achieved in the response of the tillering characteristic index to planting density. Except for Tpt and Tsd, the tillering characteristic index followed the power function. Ng, Rit, Nr, Ted, Dd, Rmt, and Rmd showed a power function increase with the increase of planting density, and the exponent of the power function was less than 1, indicating the slow-down trend. Tpt, Rid, Tst, Tet, and Dt also decreased as a power function with the increase of planting density. The exponent of the power function was greater than -1, that is, the decreasing rate gradually decreased with the increase in planting density. Nd increased as a power function with the increase of planting density, where the exponent of the power function was greater than 1, indicating the accelerated increase. Tpd and Tsd decreased with the increase of planting density and then increased gradually after reaching the minimum. (3) A better prediction was achieved, where the R² between the observed and simulated values were all 0.96. Therefore, the model can accurately describe the evolution in the number of rice tillers, indicating the better goodness of fitting, adaptability, and interpretability. The model can be applied to the dynamic regularity of the tiller number under the genotypic varieties and the agronomic measures. The tillering dynamic indicators can be expected to serve as the important phenotype in the interaction between genes and environments. [ABSTRACT FROM AUTHOR]

Published

2024

32. 密度对重齿毛当归干物质积累·分配及种植利润的影响.

Author

黄 浩, 张雅娟, 郭 杰, 游景茂, 段媛媛, 杨 群, and 郭晓亮

Abstract

[Objective] The dry matter accumulation and distribution of Angelica pubescens were studied, to provide theoretical basis for rational close planting and scientific fertilization. [Method] The dry matter of aerial part ( stems and leaves) and root were measured in different growth periods, then create fit curve to predict and analyze. [Result] The dry matter accumulation could be fitted curve well with the increase of the number of days after transplant. Under different planting density, the dry matter accumulation variation trends were similar. With the increase of density, the individual average accumulation got smaller and smaller, the area yield was more and more big, and the profit increased first and then decreased. [Conclusion]On the cultivation of Angelica pubescens, the density should be used 75 933 plants/ hm². The fertilization should be divided into parts and applied in small quantities and several times, and a proper increase in nitrogen fertilizer, to help you get a higher yield. [ABSTRACT FROM AUTHOR]

Published

2024

33. 种植密度与施肥量对白城地区甜荞农艺性状及产量的影响.

Author

加央多拉, 吴 晗, 孙墨可, 田 娟, 崔 龙, and 李春花

Abstract

To explore the optimum planting density and fertilizer application rate for buckwheat production in Baicheng. A randomized block design with 4 planting densities and 5 fertilization rates was used to study the effects of different planting densities and fertilization rates on agronomic traits and yield of buckwheat. Results showed that under the low planting density, plant height enhanced with the increase of fertilizer application amount. The number of main stem nodes among treatments had no obvious difference. The number of branches enhanced with the increase of fertilizer application amount at the low planting density of 750 000 plants/ hm², but the differences between treatments were not obvious. Under different densities, grain number per plant, grain weight per plant and 1 000-grain weight enhanced with the increase of fertilizer application under M1 treatment. The plant height enhanced with the increase of density at no fertilizer application, and decreased with the increase of density at 400 kg / hm² of fertilizer application. The number of branches did not change significantly among treatments. Thus, the optimum planting density of buckwheat in Baicheng was 1. 25 million plants/ hm² and the optimum fertilization amount was 300 kg / hm². [ABSTRACT FROM AUTHOR]

Published

2024

34. 河套灌区玉米适宜种植密度及其高产栽培品种研究.

Author

刘偲琪, 何忠萍, 包珺玮, 樊秀荣, 高海燕, 张艳, 张红萍, 代丞, 孙秀云, and 赵晓宇

Abstract

【Objective】To screen the suitable maize planting density and varieties in Hetao irrigation district of Inner Mongolia, and provide reference for the improvement of maize yield per unit area based on this.【Methods】The experiment was carried out in Bayannur City, Inner Mongolia from 2022 to 2023. A two-factor randomized block design was adopted, and the main treatment was plant density (D1: 90 000 plants/hm², D2: 97 500 plants/hm², D3: 105 000 plants/hm², D4: 112 500 plants/hm², D5: 120 000 plants/hm²), and varieties were sub-treated (Sitai 112, Lilong 170, Mingyu 268, Jinyuan 118). The effects of different densities on agronomic traits, yield components and yield of each maize variety were analyzed, and their economic benefits were calculated.【Results】At 5 densities, the reproductive growth of Sitai 112 was 3 days earlier than that of other varieties. At D3 density, Mingyu 268 plant height and ear height both were the highest, which were 3.18 and 1.33 cm, respectively. At D5 density, the lodging rate and hollow bar ratio of Mingyu 268 both were the highest, which were 30.40% and 14.21%, respectively. With the increase of density, the ear length of each variety gradually decreased and the values of Sitai 112, Lilong 170, Mingyu 268 and Jinyuan 118 reached the maximum at the density of D1, which were 20.10, 21.55, 18.75 and 20.85 cm, and there was no significant difference in ear diameter among varieties (P>0.05). At the density of D1 and D2, the yield and net income of Sitai 112 were highest, which were 14.68, 15.01 t/hm² and 27 394, 28 017 yuan/hm². At the density of D3 and D4, the yield and net income of Lilong 170 were highest, which were 17.09, 17.00 t/hm² and 32 504, 32 206 yuan/hm². At the density of D5, the yield and net income of Jinyuan 118 were highest, which were 13.13 t/hm² and 23 585 yuan/hm².【Conclusion】In Hetao irrigation district of Inner Mongolia, the high-yield cultivated varieties were Sitai 112 at 90 000 and 97 500 plants/hm², Lilong 170 at 105 000 and 112 500 plants/hm², and Jinyuan 118 at 120 000 plants/hm². [ABSTRACT FROM AUTHOR]

Published

2024

35. 种植密度对绿豆根系形态, 光合特性及产量的影响.

Author

刘思家, 王小林, 李博洋, 刘 乔, 张修春, 李欣怡, and 张雄

Subjects

*PLANT root morphology, *PLANT spacing, *LEAF morphology, *PHOTOSYNTHETIC rates, *STATISTICAL correlation, *MUNG bean

Abstract

To explore the correlation mechanism of mung bean planting density and root morphology and photosynthetic characteristics in arid areas in northern Shaanxi, in this study, taking a characteristic mung bean variety Yulü1 in Hengshan district of Yulin city of Shaanxi province as the tested material, the random group design was applied to set up 3 planting densities including 5.70(D1), 6.60(D2), and 79 500 strains/ha(D3), and the influence of planting density on root morphology and leaf photosynthetic characteristics was analyzed. The results indicated that compared with the D2 and D3 treatments, the root length and root surface area of mung bean in the D1 treatment increased by 29% and 2% respectively. The net photosynthetic rate and transpiration rate of mung bean were generally W-shaped throughout the growth period, there was no significant differences between the 3 treatments. Intercellular CO2 concentration reached its maximum during the bulge phase, D2 and D3 treatment increased the intercellular CO2 concentration by 14% and 27% respectively compared with D1 treatment. Under 3 treatments, plant height, stem diameter, and biomass all showed a slight decrease with the increase of planting density, there was no significant differences between the treatments. Compared with the D2 and D3 treatments, D1 treatment increased yield of mung bean by 5% and 32%, respectively. Correlation analysis found that net photosynthetic rate and stomatal conductivity were extremely significantly positively correlated with transpiration rate, respectively, and yield was significantly positively correlated with root mass and was extremely significantly positively correlated with stem mass, respectively. In conclusion, different planting densities could regulate the root morphology, which could significantly optimize and regulate the photosynthetic physiological characteristics at the flower pod stage, change the accumulation and distribution of dry matter in roots, stems, and leaves, promote the transfer of dry matter to grains, and then promote the increase of mung bean yield. Therefore, after comprehensive comparison, when the planting density of the mung bean variety Yulü 1 was 5.70 10 000 plants/ha, it was the most suitable for planting in the arid areas in northern Shaanxi. [ABSTRACT FROM AUTHOR]

Published

2024

36. Optimum Plant Density Improved Cotton (Gossypium hirsutum L.) Root Production Capacity and Photosynthesis for High Cotton Yield under Plastic Film Mulching.

Author

Cao, Nan, Hou, Jinmei, Hu, Wei, Li, Huqiang, Lin, Jiao, Chen, Guodong, Wan, Sumei, and Hu, Shoulin

Subjects

*PLASTIC mulching, *PLASTIC films, *PLANT spacing, *INDUSTRIAL capacity, *COTTON, *SEED yield

Abstract

Cotton photosynthetic efficiency and the root–shoot relationship are two important physiological indexes affecting the final yield, but the interactive effects of plastic film mulching and planting density on the cotton photosynthetic efficiency and root–shoot relationship have rarely been reported. We aimed to investigate the optimal plant density with or without plastic film mulching for improved seed cotton yield in southern Xinjiang. Therefore, a two-year field experiment was conducted to investigate the effects of plastic film mulching (with or without plastic film mulching) and planting density (D1: 9 × 104 plants ha−1; D2: 18 × 104 plants ha−1; D3, 22 × 104 plants ha−1, local conventional planting density; D4, 27 × 104 plants ha−1) on the cotton root–shoot relationship, photosynthetic parameters, and seed cotton yield. Our results showed that the seed cotton yield was improved under plastic film mulching at all planting densities, but economic income was significantly lower in comparison to without plastic film mulching in 2023. Compared with D3, seed cotton yield and economic income at D2 increased by 6.9% and 12.2%, either with or without plastic film mulching, respectively. The highest increase in the seed cotton yield in D2 under plastic film mulching was due to the greatest improvements in the root production capacity and photosynthesis. The boll capacity of the root system (BCR) and boll loading of the root system (BLR) in D2 were the highest among all treatments with film mulching, being 9.0% and 16.9% higher than that in D3 in 2022 and 2023. However, the root–shoot ratio (R/S) was 7.1% and 6.9% lower in D2 than D3, under film mulching, in 2022 and 2023. Moreover, moderate plant density (D2) improved the SPAD value, chlorophyll fluorescence (Fv/Fm and PIabs), and photosynthetic parameter (Pn, Tr, and Gs) and decreased Ci compared with other planting density treatments in both years. Further analyses with correlation analysis showed that the seed cotton yield was highly positive correlated with BLR, BCR, and the photosynthetic parameter. In summary, suitable planting density (18 × 104 plants ha−1) combined with plastic film mulching has the potential to obtain high yields by enhancing the efficiency of photosynthetic assimilates, improving the capacity of cotton root production, providing a reference for suitable planting density under plastic film mulching. [ABSTRACT FROM AUTHOR]

Published

2024

37. Optimizing Maize Yield and Resource Efficiency Using Surface Drip Fertilization in Huang-Huai-Hai: Impact of Increased Planting Density and Reduced Nitrogen Application Rate.

Author

Wu, Liqian, Zhang, Guoqiang, Yan, Zhenhua, Gao, Shang, Xu, Honggen, Zhou, Jiaqiang, Li, Dianjun, Liu, Yi, Xie, Ruizhi, Ming, Bo, Xue, Jun, Hou, Peng, Li, Shaokun, and Wang, Keru

Subjects

*WATER efficiency, *PLANTING, *PLANT spacing, *AGRICULTURAL productivity, *CROP yields

Abstract

Improving crop yield and resource utilization efficiency is essential for agricultural productivity. In the Huang-Huai-Hai maize region of China, optimizing planting density, nitrogen (N) application, and fertilization methods are key strategies for enhancing maize yield and N use efficiency. However, traditional approaches have often hindered these improvements. To address this issue, we conducted a study in Baoding, Hebei, from 2022 to 2023, focusing on planting density, the N application rate, and the fertilization method on grain yield, N use efficiency, water use efficiency (WUE), and economic benefits. The trial involved two planting densities: 6.0 × 104 plants ha−1 (D1, typical local density) and 9.0 × 104 plants ha−1 (D2). Five N application rates were tested: 0 (N0), 120 kg ha−1 (N1), 180 kg ha−1 (N2), 240 kg ha−1 (N3), and 300 kg ha−1 (N4). The control treatment (D1N4) utilized the local planting density and traditional fertilization methods. Our findings revealed a positive correlation between the maize yield and N application rate, with the maximum yields (13.78–13.88 t ha−1), high WUE (24.42–29.85 kg m−3), agronomic efficiency of N (AEN) (18.11–19.00 kg kg−1), and economic benefits (2.44 × 104–2.47 × 104 CNY ha−1) observed with D2N3 and surface drip fertilization. This was significantly higher than the yield and resource efficiency of traditional fertilization methods and saved fertilizer and production costs. Therefore, adopting surface drip fertilization, adjusting planting density, and optimizing N application rates proved effective in enhancing maize yield and resource utilization efficiency in the Huang-Huai-Hai maize region. [ABSTRACT FROM AUTHOR]

Published

2024

38. Impact of Planting Density on the Growth Dynamics, Agronomic Traits, and Yield of Liaodou 21.

Author

ZHANG Pei-zhu, ZHANG De-duo, HU Jun, and ZHANG De-xing

Abstract

In order to clarify the optimal planting density of soybean variety Liaodou No.21 in Luoping County, Liaodou No.21 was taken as the experimental material, and five density treatments were set up by using the randomized block design, including Treatment A (20 plants·m-2), Treatment B (25 plants·m-2), Treatment C (30 plants·m-2), Treatment D (35 plants·m-2), and Treatment E (40 plants·m-2). Then, the effects of different planting densities on the growth dynamics, agronomic traits and yield of Liaodou No.21 were studied. The results showed that the planting density had a great influence on the yield of Liaodou No.21. When the planting density was 30 plants·m-2, the total yield reached its maximum value of 2933.6 kg·hm-2. The lower planting density resulted in the insufficient number of soybean populations, while the planting density was too high, it was difficult for the individual plants to obtain sufficient nutrients, energy, and water for their growth. Therefore, an appropriate planting density was crucial for improving the yield of Liaodou No.21. [ABSTRACT FROM AUTHOR]

Published

2024

39. Dynamic plant spacing in tomato results in high yields while mitigating the reduction in fruit quality associated with high planting densities.

Author

Karpe, Margarethe, Marcelis, Leo F. M., and Heuvelink, Ep

Subjects

PLANT spacing, FRUIT quality, TOMATOES, FRUIT yield, FLOWERING of plants, PLANT drying, LEAF area

Abstract

High planting densities achieve high light interception and harvestable yield per area but at the expense of product quality. This study aimed to maintain high light interception without negative impacts on fruit quality. Dwarf tomato was grown at four densities in a climate-controlled room--at two constant densities (high and low) and two dynamic spacing treatments (maintaining 90% and 75% ground coverage by decreasing planting density in 3-4 steps)--resulting in ~100, 19, 54, and 41 plants/m² averaged over 100 days of cultivation, respectively. Constant high density resulted in the highest light use efficiency (LUE; 7.7 g fruit fresh weight per mol photons incident on the canopy) and the highest harvestable fruit yield (11.1 kg/m²) but the lowest fruit size and quality. Constant low density resulted in the lowest LUE and yield (2.3 g/mol and 3.2 kg/m², respectively), but higher fruit size and quality than high density. Compared to low density, maintaining 90% ground coverage increased yield (9.1 kg/m²) and LUE (6.4 g/mol). Maintaining 75% ground coverage resulted in a 7.2 kg/m² yield and 5.1 g/mol LUE. Both dynamic spacing treatments attained the same or slightly reduced fruit quality compared to low density. Total plant weight per m² increased with planting density and saturated at a constant high density. Assimilate shortage at the plant level and flower abortion lowered harvestable fruit yield per plant, sweetness, and acidity under constant high density. Harvestable fruit yield per plant was the highest under dynamic spacing and low density. Under constant high density, morphological responses to lower light availability per plant--i.e., higher specific leaf area, internode elongation, and increased slenderness--coincided with the improved whole-plant LUE (g plant dry weight per mol photons). We conclude that a constant high planting density results in the highest harvestable fruit yield per area, but with reduced fruit quality. Dynamic spacing during cultivation produces the same fruit quality as constant low density, but with more than double the harvestable yield per area. [ABSTRACT FROM AUTHOR]

Published

2024

40. 不同种植密度对中棉113农艺性状及产量的影响.

Author

董祯林, 万素梅, 熊世武, 马云珍, 毛廷勇, 杨北方, 骆磊, 刘超群, 陈国栋, and 李亚兵

Abstract

Copyright of Xinjiang Agricultural Sciences is the property of Xinjiang Agricultural Sciences Editorial Department 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

41. 种植技术和种植密度对吉花 2 号主要农艺性状和产量的影响.

Author

王 伟, 李玉发, 何中国, 刘红欣, 李伟堂, 杨翔宇, 张连喜, and 牛海龙

Abstract

Under different planting technologies, we researched the effects of different planting densities and planting technologies on major agronomic characters and yield of Jihua 2 in Jilin Province. We screened the proper planting technology and planting density for ecological environment of Jilin Province and improved the supporting efficient cultivation technology of Jihua 2. Two planting technologies and five planting densities（1.79×105,2.02×105,2.30×105,2.69×105,3.23×105 plants/hm²）,we researched the changes of photosynthetic index and yield of peanut. Results showed that treatment of small ridges and double rows and 2.02×105 plants/hm² planting density had the shortest growth period, which was 1-2 d earlier than that of double-grain cave sowing. Besides, the plant was shortest, which was suitable for underground dry matter accumulation, the leaf area index and total photosynthetic potential were the maximum. The yield of treatment was the highest, which was 3 651.15 kg/hm²,and enhanced by 10.17% compared with that of double-grain cave sowing. Thus, the production technology of small ridges and double rows should be vigorously promoted. [ABSTRACT FROM AUTHOR]

Published

2024

42. Positive Correlation of Lodging Resistance and Soybean Yield under the Influence of Uniconazole.

Author

Yan, Chao, Shan, Fuxin, Wang, Chang, Lyu, Xiaochen, Wu, Yuanyi, Yan, Shuangshuang, and Ma, Chunmei

Subjects

*CROP yields, *PLANT morphology, *PLANT anatomy, *PLANT spacing, *PLANT populations, *SOYBEAN farming

Abstract

Increasing planting density is one of the most effective ways to increase soybean yield, but supra-optimum density leads to an increase in the risk of lodged soybean. In this study, two varieties were selected. Heinong84 (lodging-susceptible variety, HN84) had planting densities of 200,000 plants/hm2, 300,000 plants/hm2, and 400,000 plants/hm2. Henong60 (lodging-resistant, HN60) had planting densities of 300,000 plants/hm2, 400,000 plants/hm2, and 500,000 plants/hm2. When the foliar application of uniconazole (50 mg/L) occurred at the beginning of the flowering stage (R1), the plant morphology, fiber composition, and mechanical properties of soybean internodes were determined at the podding and seed filling stages, and the yield was measured at the harvest stage. The results showed that spraying uniconazole at the R1 stage changed the morphology structure of soybean plants (i.e., plant height and petiole length reduction; stem diameter and leafstalk angle increase), improved the internode quality (i.e., increased breaking force, lignin content, cellulose content, hemicellulose content, and stem dry weight per unit length), and increased the number of grains per plant at the harvest stage. Thus, it is concluded that the application of uniconazole improved the plant population structure by changing the morphology of soybean plants, which was conducive to good light transmission and ventilation, improved the internode quality and lodging resistance, and increased the yield. [ABSTRACT FROM AUTHOR]

Published

2024

43. Response of maize growth and soil biological characteristics to planting density under fertigation in a semi-arid region.

Author

Peng Jiang, Lei Li, Dejia Xu, Rui Wang, and Quan Sun

Subjects

*PLANT spacing, *ARID regions, *FERTIGATION, *PLANT transpiration, *CROP yields

Abstract

Increasing the planting density can exacerbate crop competition for water, nutrients and space which results in a decline in the crop yields. However, the effect of increasing planting density on crop growth and soil biological characteristics in barren sandy land in the semi-arid regions are still unclear. In this study, we investigated the effects of six planting densities (5.4×104, 6.45×104, 7.95×104, 9.5×104, 9.75×104 and 10.5×104 plants/hm²) on maize growth, photosynthesis characteristics, yield and soil biological characteristics in barren sandy soil in the semi-arid region of Ningxia, China. The results indicated that the stem diameter and spike length decreased linearly with increasing planting density. The plant height, spike weight, grain weight and 100-grain weight decreased with increasing plating density. Moreover, the root length increased with increasing planting density. The diameter, volume and activity increased and then decreased with increasing planting density. There was no significant difference (p>0.05) in the effect of planting density on transpiration rate intercellular CO2 concentration. As well, the soil microbial biomass carbon and microbial biomass nitrogen decreased with increasing planting density. The soil catalase activities increased and then decreased with increasing planting density. The alkaline phosphatase activity, the amounts of soil bacteria and actinomycetes increased with increasing planting density. Generally, a moderately increasing planting density can improve maize yield when water and nutrients are sufficient. The optimal planting density was 8.29×104 plants/hm² and the highest yield was 15.84 t/hm² in barren sandy soil in semi-arid region of Ningxia, China. This study provides a theoretical basis for high yield and high efficiency of maize. [ABSTRACT FROM AUTHOR]

Published

2024

44. CARACTERIZAÇÃO MACROSCÓPICA DO FUSTE DE EUCALIPTO EM DIFERENTES DENSIDADES DE PLANTIO.

Author

Henrique dos Santos, Jean, Campos Monteiro, Thiago, Jorge Klitzke, Ricardo, Pereira Rocha, Márcio, Cardoso Silva, Thiago, and da Silva Lins, Tarcila Rosa

Subjects

EUCALYPTUS grandis, HEARTWOOD, PLANT clones, PLANT spacing, MOLECULAR cloning, EUCALYPTUS

Abstract

Copyright of Revista Foco (Interdisciplinary Studies Journal) is the property of Revista Foco 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

45. 种植密度和行距对膜下滴灌红花生长发育及产量的影响.

Author

宋贤明, 侯献飞, 顾元国, 苗昊翠, 李强, 郭美丽, 曾幼玲, and 贾东海

Abstract

Copyright of Xinjiang Agricultural Sciences is the property of Xinjiang Agricultural Sciences Editorial Department 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

46. 氮密互作对弱筋小麦长麦 8 号产量和品质的影响.

Author

杨 竹, 周宾寒, 吴翠翠, 丁富功, Daniel, Bimpong, 孙 吉, 宋祯祯, 方正武, 张迎新, and 王书平

Abstract

To study the optimal nitrogen application rate and planting density for synergistic improvement of yield and quality in weak gluten wheat. Using high-quality and high-yielding weak gluten wheat Changmai 8 as the material, a field double factor split plot experiment was designed, with three nitrogen application levels of 120 kg / hm² (N1), 180 kg / hm² (N2 ), and 300 kg / hm² (N3 ), as well as three planting densities of 1. 8 million plants/ hm² (D1 ), 2. 7 million plants/ hm² (D2 ), and 3. 6 million plants/ hm² (D3 ). The effects of nitrogen density interaction on wheat phenology, plant height, spike length, number of spikes, number of grains per spike, thousand grain weight, and yield were investigated, and the effects of nitrogen density interaction on grain protein content and wet gluten content were systematically analyzed. The results showed that the planting density and nitrogen application rate had varying degrees of impact on the growth and development, yield and its constituent factors, as well as grain appearance and quality traits of weak gluten wheat Changmai 8. The optimal nitrogen density combination for achieving synergistic improvement of yield and quality of Changmai 8 is a nitrogen application rate of 180 kg / hm² and a planting density of 3. 6 million plants/ hm² . [ABSTRACT FROM AUTHOR]

Published

2024

47. 秸秆还田模式下种植密度对玉米根际土壤真菌群落的影响及其 驱动因素分析

Author

谭小敏, 吕开源, 马 惠, 吴宏亮, 赵如浪, 康建宏, and 吴 娜

Abstract

Straw return and appropriate planting density are beneficial for improving soil physicochemical properties and optimizing microbial community structure. This study investigated the effect of different straw-returning modes (H1: straw crushing deep plowing back to the field, H0: straw was not returned to the field) and different planting densities (D1: 67500plants·ha-1, D2: 82500plants·ha-1, D3: 97500plants·ha-1) on the diversity and community structure of rhizosphere fungi at maize maturity using Illumina MiSeq high-throughput sequencing technology. The study was established as a split-plot experiment and conducted on maize farmland of the Yinhuang Irrigation area in Ningxia for five consecutive years. Results showed that: (1) the interaction effect of straw return mode and planting density was highly significant for the Chao1 index, ACE index, and Shannon index of soil fungal communities (P<0.01), with the indexes being highest under the H1D2 treatment. (2) Soil fungal community in the inter-root area of maize in the farmland was mainly composed of fungi from 509 genera in 14 phyla, such as Ascomycota (63.50%-81.82%), Basidiomycota (4.83%-18.03%), and Mortierellomycota (3.18%-9.61%), etc. The structure of the fungal community differed among different density and straw return mode combinations, and the relative abundance of the dominant phyla and genera varied greatly. (3) The interaction of straw return mode and planting density significantly influenced the soil pH, organic matter, alkaline dissolved nitrogen, and quick-acting phosphorus content (P<0.01), with H1D2 treatment being the optimal treatment combination. Pearson's correlation analysis showed that there were significant or highly significant correlations among soil pH, organic matter, total nitrogen, total phosphorus, alkaline dissolved nitrogen, quick-acting phosphorus, quick-acting potassium content, and the α-diversity of the fungi. Soil pH was significantly and negatively correlated with the relative abundance of Cladosporium (P<0.05). Organic matter, total phosphorus, alkaline-dissolved nitrogen. And quick-acting potassium content were significantly and positively correlated with the relative abundance of Cladosporium (P<0.05). Organic matter content was significantly and negatively correlated with the relative abundance of Chaetomium (P<0.05). RDA analyzes showed that total nitrogen, organic matter, fast-acting potassium, and pH were the main environmental factors that drive the variation of soil fungal communities in maize rhizosphere at different densities under different straw return patterns. In this study, straw return combined with a planting density of 82500 plants·ha-1 was optimum for increasing farmland soil fertility and improving inter-root soil fungal diversity. [ABSTRACT FROM AUTHOR]

Published

2024

48. 播期与密度双因素对陆地棉生长发育及产量的影响.

Author

张俊尧, 王家勇, 唐江华, 娄善伟, 李文珊, 徐文修, 孟令贻, 何洪涛, and 桑军民

Abstract

Copyright of Xinjiang Agricultural Sciences is the property of Xinjiang Agricultural Sciences Editorial Department 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

49. Effect of plant spacing and cutting intensity on the morphology and productivity of forage cactus [Opuntia stricta (Haw.) Haw.].

Author

Ferreira, Claudia Maciel, Cunha, Marcio Vieira da, Ferreira dos Santos, Mércia Virginia, Mello, Alexandre Carneiro Leão de, dos Santos, Djalma Cordeiro, Silva, Maria da Conceição, and Coelho, Janerson José

Subjects

PLANT spacing, PLANT cuttings, OPUNTIA, OPUNTIA ficus-indica, HAWTHORNS, CACTUS, PRINCIPAL components analysis

Abstract

The forage cactus cultivar Mexican elephant ear (MEE) [Opuntia stricta (Haw.) Haw.] has been widely used in the semi-arid of Brazil because of its resistance to carmine mealybug. Therefore, it is necessary to establish planting and harvesting management strategies for this cultivar. This study evaluated the effect of cutting intensity (preservation mother cladode, and mother + primary cladodes) and different planting densities (55 555; 27 777; 13 888 and 6 944 plants ha−1) on the morphology and productivity of the forage cactus cv. MEE, in 10-year-old cultivation under rainfed conditions. A split-plot design was used where planting density was allocated to the main plots and harvesting intensity to the sub-plots. Each treatment combination was replicated four times. The data were submitted to ANOVA, Tukey's test, and principal component analysis at 5% (p < 0.05). Post-harvesting preservation of the primary cladodes promoted greater dry matter production (9.2 t ha−1 year−1), crop water accumulation (86.6 t ha−1 year−1), and rainwater use efficiency (11.4 kg of DM mm−1) (p < 0.01). Primary cladodes preservation positively influenced the productive characteristics of the forage cactus, and the planting density of 13 888 plants ha−1 (0.72 m2) favoured the productivity of this cultivar. These findings can guide planting and harvesting strategies for cultivating MEE cactus. [ABSTRACT FROM AUTHOR]

Published

2024

50. Purification Effect of Ecological Floating Bed with Different Planting Density on Tailing Water

Author

Yanyan Jiang, Junliang Liu, and Wei Song

Subjects

ecological floating bed, planting density, tail water treatment, Engineering (General). Civil engineering (General), TA1-2040

Abstract

This study aimed to determine the optimal planting density of floating bed plants for purifying wastewater treatment plant tailwater and realizing the resourceful use of wastewater. Three commonly used floating bed plants, Iris, Zelkova, and water onion, were selected, and a self-designed and assembled floating bed frame was used as the plant carrier. Simulated wastewater treatment plant tailwater was treated for 28 days, and the pH value, chemical oxygen demand (COD), NH4+−N, TN, TP, and plant growth were continuously monitored. The results showed that the best water purification effect was achieved when the planting density was 67 plants/m2. Thalia dealbata and Scirpus were found to have better TN and NH4+−N removal effects than Iris, while Iris had a superior TP removal effect compared to Thalia dealbata and Scirpus. Additionally, Thalia dealbata had a better COD removal effect than Iris and Scirpus. Therefore, the optimal planting density for constructing an ecological floating bed was determined to be 67 plants/m2.

Published

2024