Rice Grown(水稻种植)研究综述
Rice Grown 水稻种植 - Physiological analyses of OsIAA20 RNAi rice grown under drought or salt stress showed that proline and chlorophyll content significantly decreased, while malondialdehyde content and the ratio of Na+/ K+ significantly increased. [1] The application of MLE of Faisalabad landrace also improved yield and grain quality of rice grown under drought stress as well as drought-free environment. [2] Hence it can be concluded that this study has provided some insight in to the endophytic status of rice grown across the state of West Bengal. [3] This study provides an innovative method for reducing the food safety risks from rice grown on slightly to moderately Cd-contaminated paddy soils. [4] A pot experiment was carried out to study the impacts of five organic materials (rape straw, broad bean stalk, peat, pig manure compost, and biochar) on the availability of arsenic (As) and cadmium (Cd) in soil, the amount of iron plaque on the root surface, as well as the uptake and translocation of As and Cd in rice grown in an As/Cd co-contaminated yellow paddy soil. [5] Upland rice grown by rice farmers is having the lowest productivity in the rice production system. [6] The results showed that upland rice which was cultivated in multiple ways through intercropping or overlapped cropping, namely Introduced Cropping Pattern 1 (Upland Rice + Maize-Peanuts) and Introduced Cropping Pattern 2 (Upland Rice + Corn/Cassava-Green Beans-Peanuts) can increase land productivity (index planting of 222% and 288%, respectively) and farmers' income increased by 244-588% compared to upland rice grown in monoculture. [7] Silicate fertilization in rice grown on As-enriched soils altered rhizosphere bacterial communities and increased several commensal microorganisms and their genetic potential to tolerate oxidative stress, osmotic stress, oxygen limitation, nitrogen and phosphate limitation, heat and cold shock, and radiation stress. [8] These results indicate that WH16-1-MT can be used as a novel microbial treatment approach to reduce Cd in rice grown in moderately Cd-contaminated paddy soil. [9] This study aimed to determine an optimized fertilizer rate to maximize grain yields, economic returns over fertilizer cost, and agronomic fertilizer nutrient use efficiency (ANUE) of Pathum Thani 1 rice grown on Sapphaya soil series. [10] A two-year field experiment was carried out to examine the concentrations of ammonium-N (NH4+-N), nitrate-N (NO3−-N), total dissolved N (TDN) and dissolved organic N (DON) in percolated irrigation water, as well as cumulative leaching losses after NFC was used to replace different application rates of urea in double cropped rice grown in red paddy soil. [11] graminicola in flooded rice grown from polymer-coated and uncoated seeds. [12] It has been found that MeHg in rice grown in unrestrained MeHg areas close to mining degraded sites, contain over (100 μ g/kg) in the edible part (grain) and shown to be over ten times higher than other food crops. [13] Based on this study, we can expect that rice grown in these paddy fields will accumulate PCNs and other combustion-related pollutants, strongly suggesting the necessity for multimedia (e. [14] Herein, Cd isotope fractionation and Cd-related gene expression were employed to investigate the key regulatory mechanisms during uptake, root-to-shoot, and stem-to-leaf transport of Cd in rice grown in pot experiments with Cd-contaminated soil under flooded and non-flooded conditions, respectively. [15] 10 × 10-4, respectively, indicating potential cancer and non-cancer risk for Taiwan residents exposed to As through the consumption of rice grown on the studied site. [16] The highest grain Cd levels were found in rice grown in the dry season from two provinces located southeast of Phnom Penh along the Lower Mekong River, and their corresponding soil Cd levels were relatively higher than those collected during the wet season and around the Tonle Sap. [17] A field experiment was carried out during the summer season of 2019 in one of the fields of AlTahiniah village Al-Mahanawiya district which is 36 km away from the Diwaniyah governorate center, to study the effect of Azola, phosphate and nitrogen fertilizers and the interactions between them on yield components, yield and grains quality of the rice grown in water logging conditions. [18] However, limited information is available on yield components of rice grown using simplified cultivation methods in a rice-ratoon rice cropping system. [19] The present study was aimed at exploring the effect of soil application of different concentrations of orthophosphate (P) (0, 10, 20, 30, and 40 mg kg−1) on rice agronomic and yield parameters, arsenic (As) species accumulation, and polyphenol levels in the grain of rice grown under As spiked soil (10 mg kg−1). [20] Rice grown under AWD15 resulted in statistically similar grain yield with rice maintained under CF, but there was 40–44% more water savings depending on seeding rates and 68% higher water productivity in AWD15-treated plots. [21] Therefore, we conducted pot experiments to investigate the influence of water management regimes on the formation of iron plaque on rice roots, and its effect on the accumulation and translocation of Cr in rice grown on contaminated soil. [22] Simultaneous control of As and Cd accumulation in rice grown in co-contaminated rice paddies is highly desirable but difficult to achieve. [23] The desired edits were confirmed in protoplasts and serve as the basis for ongoing plant transformation experiments aiming to improve the P-use efficiency of upland rice grown in acidic soils. [24] The vast reserve of germplasm of rice grown in different eco systems could be screened to exploit the genotypic differences bfor zinc deficiency tolerance. [25] Rice grown in arsenic (As)-contaminated soils will have an elevated As concentration in the edible parts and lower yield due to the stressful growing environment. [26] The present research aimed to examine the use of magnetite nanoparticles (MNPs) in combination with phyto‐beneficial rhizobacterium (PhBR) for improvement of applied N recovery (ANR) from urea fertilizer in rice grown under deficient and optimum watering conditions. [27] Rice grown with PM produced the highest average rice productivity of main crop, followed by FYM. [28] Further microarray and qPCR analyses indicated that the expression of several abiotic stress-responsive genes such as OsABI5 and OsSRO1c was also altered in the shoots of transgenic rice grown under either normal or NaCl-treated conditions. [29] The results show that: (1) Since the implementation of heritage conservation, the variety of traditional rice grown at the heritage sites basically remains stable, the varieties of other crops basically remain unchanged and the varieties of fruit trees and medicinal plants have developed at faster rates. [30] Basmati (aromatic) rice is premier rice grown in north-western India and Pakistan. [31] 5, Zn is fully complexed by DMA and at pH 0) detected during adsorption of Zn on goethite in alkaline solutions or between root and soil solution in rice grown in alkaline soils. [32] We assessed the phytoavailability of heavy metals in wheat and rice grown on soils along flood plains of Sutlej river (India) and its effects on human health. [33] Rice grown in pots of Cd-contaminated paddy soil were subjected to different irrigation regimes: flooding, intermittent flooding (Int-FL), and sustained soil moisture at 70% water holding capacity (WHC). [34] Furthermore, increased nodule numbers of licorice grown at B4 amendment were observed under both non-saline and saline conditions. [35] The utility of the method is demonstrated for paddy rice grown in Nanchang, China. [36] However, limited information is available on yield components of rice grown using simplified cultivation methods in a rice-ratoon rice cropping system. [37] To overcome this problem, we first showed that the soil application of synthetic 2′-deoxymugineic acid, a natural phytosiderophore from the Poaceae, can recover Fe deficiency in rice grown in calcareous soil. [38] Conclusion: Conjoint application of 150 kg N ha and 150 kg Si ha recommended to realize maximum yield of rice grown in soil low nitrogen and silicon. [39] We investigated how sulfur (S) application prior to wheat cultivation under wheat-rice rotation influences the uptake of cadmium (Cd) in rice grown in low- and high-Cd soils. [40] patent office in late 1997 to call the aromatic rice grown outside India ‘Basmati’ to which India objected. [41] Rice grown with FL was not profitable, but lasering with 0% gradient significantly increased gross margin for rice, wheat and the total RW system. [42] In this study, high-throughput sequencing technology based on the Illumina Miseq platform was used to reveal the "core microbiota" by examining the diversity and community structures of seed endophytic bacteria in saline-alkali tolerant rice grown under different salt concentrations and explore the effect of salt concentration on its endophytic bacteria. [43] These results suggest that rice grown under replete Si will be able to withstand combined stressors of M. [44] We aimed to investigate how sulfur (S) application prior to oilseed rape cultivation influences the uptake of cadmium (Cd) by rice grown in low- and high-Cd soils. [45] The natural abundance of Cr and Ni in serpentine soils is well-known, but the food safety of rice grown in these hazardous paddy soils is poorly understood. [46] The objective of this study was to evaluate the physical and chemical properties such as plant height, length of panicles, number of effective tillers, total number of grains, number of unfilled and filled grains, weight of 1000 grains, biological and economic yield, harvest index, chlorophyll index, growth period, total phenol (TP), and total antioxidant capacity based on 2,2-diphenyl-1-picrylhydrazyl (DPPH) in 30 genotypes of elite rice grown in Iran. [47] This is a novel study about responses of leaf photosynthetic traits and plant mercury (Hg) accumulation of rice grown in Hg polluted soils to elevated CO2 (ECO2). [48] strain ORF15-23 which colonize the rice roots, is a promising rhizobacteria in promoting the aroma level of the Thai jasmine rice grown under salt stress and could be developed as a bioinoculant for Thai jasmine rice cultivation in a salt-affected area. [49] Irrigation of exogenous peroxidase (POX) together with its co-substrate H2O2 (POXRice + H2O2), is likely to have protective effect upon the biochemical and nodular changes in rice grown in Cd-rich soil. [50]干旱或盐胁迫下生长的OsIAA20 RNAi水稻生理分析表明,脯氨酸和叶绿素含量显着降低,而丙二醛含量和Na+/K+比值显着升高。 [1] 费萨拉巴德地方品种 MLE 的应用还提高了在干旱胁迫和无干旱环境下生长的水稻的产量和谷物品质。 [2] 因此,可以得出结论,这项研究为了解西孟加拉邦种植的水稻的内生状况提供了一些见解。 [3] 本研究提供了一种创新方法,可降低在轻度至中度 Cd 污染稻田上种植的水稻的食品安全风险。 [4] 通过盆栽试验研究了五种有机材料(油菜秸秆、蚕豆秆、泥炭、猪粪堆肥和生物炭)对土壤中砷(As)和镉(Cd)有效性的影响。根表面的铁斑,以及在 As/Cd 共同污染的黄色稻田中生长的水稻对 As 和 Cd 的吸收和转运。 [5] 稻农种植的旱稻在水稻生产系统中的生产力最低。 [6] 结果表明,通过间作或套作多种方式栽培的旱稻,即引种方式1(旱稻+玉米-花生)和引种方式2(旱稻+玉米/木薯-绿豆-花生)可以与单一种植的旱稻相比,提高土地生产力(种植指数分别为 222% 和 288%),农民收入增加 244-588%。 [7] 在富含 As 的土壤上种植的水稻中的硅酸盐施肥改变了根际细菌群落,并增加了几种共生微生物及其耐受氧化应激、渗透胁迫、氧限制、氮和磷限制、热和冷冲击以及辐射胁迫的遗传潜力。 [8] 这些结果表明,WH16-1-MT 可作为一种新的微生物处理方法来减少生长在中度 Cd 污染稻田土壤中的水稻中的 Cd。 [9] 本研究旨在确定优化的施肥量,以最大限度地提高在萨帕亚土壤系列上种植的 Pathum Thani 1 水稻的粮食产量、经济回报(超过化肥成本)和农艺肥料养分利用效率 (ANUE)。 [10] 进行了为期两年的田间试验,以检查渗滤灌溉水中的铵-N (NH4+-N)、硝酸盐-N (NO3−-N)、总溶解 N (TDN) 和溶解有机 N (DON) 的浓度, 以及 NFC 后的累积淋失损失被用于替代红稻土壤中种植的双季稻中不同施用量的尿素。 [11] 由聚合物涂层和未涂层种子生长的淹水水稻中的禾本科。 [12] 已经发现,在靠近采矿退化地点的不受限制的甲基汞地区种植的水稻中的甲基汞在可食用部分(谷物)中含有超过(100 微克/千克),并且显示出比其他粮食作物高十倍以上。 [13] 根据这项研究,我们可以预期,在这些稻田中种植的水稻会积累 PCN 和其他与燃烧相关的污染物,这强烈表明多媒体(例如。 [14] 在此,利用镉同位素分离和镉相关基因表达来研究镉污染土壤在淹水条件下盆栽试验中镉在吸收、根到茎和茎到叶运输过程中的关键调控机制。和非洪水条件,分别。 [15] 分别为 10 × 10-4,表明台湾居民通过食用研究地点种植的大米而暴露于砷的潜在癌症和非癌症风险。 [16] 在位于金边东南部沿湄公河下游的两个省的旱季种植的水稻中发现了最高的谷物 Cd 水平,其相应的土壤 Cd 水平相对高于雨季和洞里萨附近收集的那些。 [17] 2019 年夏季,在距迪瓦尼亚省中心 36 公里的 AlTahiniah 村 Al-Mahanawiya 区的一个田地进行了田间试验,研究了 Azola、磷酸盐和氮肥的效果以及它们之间的相互作用。对涝渍条件下水稻产量构成、产量和籽粒品质进行了研究。 [18] 然而,关于在水稻-再生稻种植系统中使用简化栽培方法种植的水稻产量成分的信息有限。 [19] 本研究旨在探讨土壤施用不同浓度的正磷酸盐 (P)(0、10、20、30 和 40 mg kg−1)对水稻农艺和产量参数、砷 (As) 物种积累、在添加砷的土壤(10 mg kg-1)下生长的水稻籽粒中的多酚含量和多酚含量。 [20] 在 AWD15 下种植的水稻与保持在 CF 下的水稻产量在统计学上相似,但在 AWD15 处理的地块中,节水量增加了 40-44%,具体取决于播种率,水分生产率提高了 68%。 [21] 因此,我们进行了盆栽试验,以研究水分管理制度对水稻根部铁斑形成的影响,以及其对受污染土壤上生长的水稻中 Cr 积累和转运的影响。 [22] 同时控制在共同污染稻田中种植的水稻中砷和镉的积累是非常可取的,但很难实现。 [23] 所需的编辑在原生质体中得到证实,并作为正在进行的植物转化实验的基础,旨在提高在酸性土壤中生长的旱稻的磷利用效率。 [24] 可以筛选不同生态系统种植的水稻的大量种质资源,以利用其耐缺锌的基因型差异。 [25] 在受砷 (As) 污染的土壤中种植的水稻由于生长环境紧张,其可食部分的砷浓度会升高,而产量会降低。 [26] 本研究旨在检验磁铁矿纳米粒子 (MNPs) 与植物有益根际细菌 (PhBR) 的结合使用,以提高在缺水和最佳浇水条件下生长的水稻从尿素肥料中施用的氮回收率 (ANR)。 [27] 在主要作物中,用 PM 种植的水稻平均水稻产量最高,其次是 FYM。 [28] 进一步的微阵列和 qPCR 分析表明,在正常或 NaCl 处理条件下生长的转基因水稻的芽中,几种非生物胁迫响应基因(如 OsABI5 和 OsSRO1c)的表达也发生了改变。 [29] 结果表明:(1)遗产保护实施以来,遗产地种植的传统水稻品种基本保持稳定,其他农作物品种基本保持不变,果树和药用植物品种发展较快。率。 [30] 印度香米(芳香米)是印度西北部和巴基斯坦种植的优质稻米。 [31] 如图 5 所示,在碱性溶液中的针铁矿或碱性土壤中生长的水稻根部和土壤溶液之间吸附 Zn 时,在 DMA 和 pH 0) 下,Zn 被完全络合。 [32] 我们评估了在 Sutlej 河(印度)洪泛平原土壤上种植的小麦和水稻中重金属的植物有效性及其对人类健康的影响。 [33] 在 Cd 污染的稻田土壤中种植的水稻经过不同的灌溉方式:洪水、间歇性洪水 (Int-FL) 和 70% 持水量 (WHC) 的持续土壤水分。 [34] 此外,在非盐水和盐水条件下都观察到在 B4 改良剂下生长的甘草根瘤数量增加。 [35] 该方法的实用性在中国南昌种植的水稻中得到证实。 [36] 然而,关于在水稻-再生稻种植系统中使用简化栽培方法种植的水稻产量成分的信息有限。 [37] 为了克服这个问题,我们首先证明了在土壤中施用合成的 2'-deoxymugineic acid(一种来自禾本科的天然植物铁载体)可以恢复生长在钙质土壤中的水稻的铁缺乏症。 [38] 结论:建议在低氮低硅土壤中配施150 kg N ha和150 kg Si ha,以实现水稻的最大产量。 [39] 我们研究了小麦-水稻轮作下小麦种植前的硫 (S) 施用如何影响在低镉和高镉土壤中种植的水稻对镉 (Cd) 的吸收。 [40] 专利局于 1997 年底将在印度以外种植的香米称为“印度香米”,印度对此表示反对。 [41] 用 FL 种植的水稻没有盈利,但 0% 梯度的激光显着增加了水稻、小麦和整个 RW 系统的毛利率。 [42] 本研究采用基于Illumina Miseq平台的高通量测序技术,通过检测不同盐浓度下耐盐碱水稻种子内生菌的多样性和群落结构,揭示“核心菌群”,并探讨其效果。盐浓度对其内生细菌的影响。 [43] 这些结果表明,在充足的 Si 下生长的水稻将能够承受 M. [44] 我们旨在研究在油菜种植前施用硫 (S) 如何影响在低镉和高镉土壤中种植的水稻对镉 (Cd) 的吸收。 [45] 众所周知,蛇纹石土壤中 Cr 和 Ni 的天然丰度是众所周知的,但人们对在这些有害稻田土壤中种植的水稻的食品安全知之甚少。 [46] 本研究的目的是评价株高、穗长、有效分蘖数、总粒数、未灌浆和灌浆粒数、千粒重、生物经济产量、收成等理化性质。基于伊朗种植的 30 个基因型的 2,2-二苯基-1-苦酰肼 (DPPH) 的指数、叶绿素指数、生长期、总酚 (TP) 和总抗氧化能力。 [47] 这是一项关于在汞污染土壤中生长的水稻叶片光合性状和植物汞 (Hg) 积累对升高的 CO2 (ECO2) 响应的新研究。 [48] 定殖水稻根部的菌株 ORF15-23 是一种很有前途的根际细菌,可以提高在盐胁迫下生长的泰国茉莉香米的香气水平,并且可以开发为在盐害地区种植泰国茉莉香米的生物接种剂。 [49] 灌溉外源过氧化物酶 (POX) 及其辅助底物 H2O2 (POXRice + H2O2) 可能对生长在富含 Cd 的土壤中的水稻的生化和结节变化具有保护作用。 [50]
Upland Rice Grown
Upland rice grown by rice farmers is having the lowest productivity in the rice production system. [1] The results showed that upland rice which was cultivated in multiple ways through intercropping or overlapped cropping, namely Introduced Cropping Pattern 1 (Upland Rice + Maize-Peanuts) and Introduced Cropping Pattern 2 (Upland Rice + Corn/Cassava-Green Beans-Peanuts) can increase land productivity (index planting of 222% and 288%, respectively) and farmers' income increased by 244-588% compared to upland rice grown in monoculture. [2] The desired edits were confirmed in protoplasts and serve as the basis for ongoing plant transformation experiments aiming to improve the P-use efficiency of upland rice grown in acidic soils. [3] delafieldii PA1 in the growth and yield of upland rice grown on ultisol soil, determine the best bacteria that showed the best upland rice growth and yield, and determine the interactions between upland rice varieties and bacterial type. [4] The results showed that Colwell, Morgan-Wolf, and Olsen extraction methods were not suitable to determine P requirement for upland rice grown on Typic Kandiudox. [5]稻农种植的旱稻在水稻生产系统中的生产力最低。 [1] 结果表明,通过间作或套作多种方式栽培的旱稻,即引种方式1(旱稻+玉米-花生)和引种方式2(旱稻+玉米/木薯-绿豆-花生)可以与单一种植的旱稻相比,提高土地生产力(种植指数分别为 222% 和 288%),农民收入增加 244-588%。 [2] 所需的编辑在原生质体中得到证实,并作为正在进行的植物转化实验的基础,旨在提高在酸性土壤中生长的旱稻的磷利用效率。 [3] nan [4] nan [5]
1 Rice Grown
This study aimed to determine an optimized fertilizer rate to maximize grain yields, economic returns over fertilizer cost, and agronomic fertilizer nutrient use efficiency (ANUE) of Pathum Thani 1 rice grown on Sapphaya soil series. [1] This study aimed to determine an optimized fertilizer rate to maximize grain yields, economic returns over fertilizer cost and agronomic fertilizer nutrient-use efficiency (ANUE) of Pathum Thani 1 rice grown on Sapphaya soil series. [2]本研究旨在确定优化的施肥量,以最大限度地提高在萨帕亚土壤系列上种植的 Pathum Thani 1 水稻的粮食产量、经济回报(超过化肥成本)和农艺肥料养分利用效率 (ANUE)。 [1] nan [2]
Transgenic Rice Grown
Further microarray and qPCR analyses indicated that the expression of several abiotic stress-responsive genes such as OsABI5 and OsSRO1c was also altered in the shoots of transgenic rice grown under either normal or NaCl-treated conditions. [1] AhNRAMP1 expression increased biomass in transgenic tobacco and rice, as well as yield in transgenic rice grown on calcareous soil. [2]进一步的微阵列和 qPCR 分析表明,在正常或 NaCl 处理条件下生长的转基因水稻的芽中,几种非生物胁迫响应基因(如 OsABI5 和 OsSRO1c)的表达也发生了改变。 [1] nan [2]
Paddy Rice Grown
The utility of the method is demonstrated for paddy rice grown in Nanchang, China. [1] The factors influencing this upgrade in the quality of paddy rice grown through contract farming are: the number of extension visits to the farmer, the mode of threshing used by the farmer, and the agro-ecological zone of the farmer. [2]该方法的实用性在中国南昌种植的水稻中得到证实。 [1] nan [2]
Traditional Rice Grown
The results show that: (1) Since the implementation of heritage conservation, the variety of traditional rice grown at the heritage sites basically remains stable, the varieties of other crops basically remain unchanged and the varieties of fruit trees and medicinal plants have developed at faster rates. [1] Gross return realized from one acre of traditional rice grown by sample farmers was Rs 51000 and net return Rs 16764. [2]结果表明:(1)遗产保护实施以来,遗产地种植的传统水稻品种基本保持稳定,其他农作物品种基本保持不变,果树和药用植物品种发展较快。率。 [1] nan [2]
Red Rice Grown
Therefore, application of mycorrhiza biofertilizer and intercropping with soybean, besides increasing grain yield, are also capable of increasing health values of the red rice grown on raised-beds in aerobic irrigation system. [1] This study aimed to examine the effects of relay-planting several species of legume crops at various ages of rice plants on growth and yield of red rice grown together with legume crops in pot culture under aerobic irrigation systems. [2]因此,施用菌根生物肥和与大豆间作,除了提高粮食产量外,还可以提高好氧灌溉系统中高架床红稻的健康价值。 [1] nan [2]