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1.
5年定位试验条件下钾肥用量对双季稻产量和施钾效应的影响 总被引:5,自引:3,他引:2
通过5年定位试验(2008~2012年), 研究不同钾肥施用量对水稻产量、植株钾素含量、钾素积累量、钾肥利用率、土壤钾素含量、钾素平衡和钾肥经济效益的影响。试验施钾量(K2O)从低到高设K0(不施钾)、K1(早稻84 kg/hm2、晚稻105 kg/hm2)、K2(早稻120kg/hm2、晚稻 150 kg/hm2)、K3(早稻156kg/hm2、晚稻195 kg/hm2)和K4(早稻192kg/hm2、晚稻 240kg/hm2)5个处理。5年的试验结果表明, 施钾能显著提高早、晚稻产量,在一定施钾量范围内,水稻产量随施钾量的增加而增加;施钾能促进水稻植株对钾素的吸收和积累,尤其是稻草对钾素的吸收和积累;早、晚稻的钾肥农学效应均以K2处理最高(早稻3.12 kg/kg、晚稻3.70 kg/kg);钾肥利用率以K1处理最高(早稻41.2%、晚稻76.4%),并随施钾量提高而降低;不同施钾量对土壤钾素含量有明显影响,土壤速效钾、缓效钾和土壤全钾均随施钾量的增加而增加,且不同处理间土壤速效钾含量差异达极显著水平(P<0.01);连续种植5年10季水稻后,K0、K1和K2处理的土壤钾素亏缺(K 127.1kg/hm2、 58.3kg/hm2和10.8kg/hm2),亏缺量随施钾量的增加而降低; K3和K4处理的土壤钾素盈余(48.0 kg/hm2 和109.2kg/hm2),盈余量随施钾量的增加而增加。在经济效益上,早、晚稻产投比均以K2处理最高(早稻1.04、晚稻1.27)。综合考虑施钾的增产效应、经济效益和土壤钾素养分平衡等因素,建议该双季稻区早稻施钾量在K2O 120~156 kg/hm2、晚稻施钾量在K2O 150~195kg/hm2范围内较为适宜。 相似文献
2.
Soil potassium supplementation relies heavily on the use of chemical fertilizer, which has a considerable negative impact on the environment. Potassium-solubilizing bacteria (KSB) could serve as inoculants. They convert insoluble potassium in the soil into a form that plants can access. This is a promising strategy for the improvement of plant absorption of potassium and so reducing the use of chemical fertilizer. The objectives of this study were to isolate and characterize tobacco KSB and to evaluate the effects of inoculation with selected KSB strains on tobacco seedlings. Twenty-seven KSB strains were isolated and identified through the comparison of the 16S ribosomal DNA. Among them, 17 strains belonged to Klebsiella variicola, 2 strains belonged to Enterobacter cloacae, 2 strains belonged to Enterobacter asburiae, and the remaining 6 strains belonged to Enterobacter aerogenes, Pantoea agglomerans, Agrobacterium tumefaciens, Microbacterium foliorum, Myroides odoratimimus, and Burkholderia cepacia, respectively. All isolated KSB strains were capable of solubilizing K-feldspar powder in solid and liquid media. K. variicola occurred at the highest frequency with 18 strains. Four isolates, GL7, JM3, XF4, and XF11, were selected for a greenhouse pot experiment because of their pronounced K-solubilizing capabilities. After being treated with the four KSB strains, plant dry weight and uptake of both K and nitrogen (N) by tobacco seedlings increased significantly. These increases were higher with the combination of KSB inoculation and K-feldspar powder addition. Isolate XF11 showed the most pronounced beneficial effect on plant growth and nutrient uptake by tobacco seedlings. Combining the inoculation of KSB and the addition of K-feldspar powder could be a promising alternative to commercial K fertilizer and may help maintain the availability of soil nutrients. Further studies are necessary to determine the effects of these bacterial strains on mobilization of potassium-bearing minerals under field conditions. 相似文献
3.
施钾对不同肥力土壤玉米钾素吸收、分配及产量的影响 总被引:5,自引:0,他引:5
采用田间试验, 研究了吉林省高(榆树市)、低肥力(公主岭市)肥力条件下不同钾肥用量对玉米产量、钾素吸收和分配的影响。结果表明, 榆树试验点和公主岭试验点的最高产量施钾量分别为83.3 kg·hm-2和113.9 kg·hm-2, 最佳经济施钾量分别为75.1 kg·hm-2和103.1 kg·hm-2。公主岭低肥力试验点比榆树高肥力试验点的最高产量和最佳经济产量分别提高了3.70%和3.68%。施用钾肥可有效提高玉米干物质最大积累速率和钾素最大吸收速率, 并能提前干物质最大积累速率和钾素最大吸收速率出现的天数。当施钾量超过60 kg(K2O)·hm-2时, 公主岭低肥力试验点的干物质最大积累速率和钾素最大吸收速率均高于榆树高肥力试验点。适宜的钾肥用量有利于提高钾养分由营养体向籽粒的转运量、转运效率及籽粒养分比例, 榆树高肥力试验点籽粒养分比例低于公主岭低肥力试验点, 幅度为0.5%~1.7%。除施钾量60 kg(K2O)·hm-2处理外, 公主岭低肥力试验点的钾肥农学利用率、偏生产力和利用效率等指标均高于榆树高肥力试验点, 分别提高7.3~8.8 kg·kg-1、4.4~8.3 kg·kg-1、1.6%~6.2%。综合考虑提高玉米产量、效益及钾肥利用效率, 高肥力土壤适宜施钾量为75 kg·hm-2, 低肥力土壤上适宜施钾量为103 kg·hm-2。 相似文献
4.
《Communications in Soil Science and Plant Analysis》2012,43(19):2502-2514
Five levels of water stress cycle (control flooded, control saturated, 5, 10, and 15 days of irrigation interval) and three potassium fertilization levels [80 kg, 120 kg, and kg 160 dipotassium oxide (K2O) ha?1] were exposed to investigate the influence of potassium fertilizer for minimizing water stress effect and maximizing productivity of rice. Different phyto-physiological parameters as well as uptake of major nutrient elements [nitrogen (N), phosphorus (P), potassium (K), calcium (Ca), magnesium (Mg), iron (Fe)] were examined. It was observed that rice yield, harvest index, and other physiological parameters reduces with increasing duration of water stress while application of additional potassium fertilizer has progressive impact on those parameters. From our observation, 10 days of watering cycle with potassium fertilization at 120 kg K2O ha?1 produces highest grain yield and harvest index. Uptake of major nutrient elements was also enhanced by potassium fertilizer. Therefore, it can be stated that additional potassium fertilizer application could be useful to mitigate water stress effect in rice. 相似文献
5.
Prakash Chandra Srivastava Uzma Ilias Ansari Satya Pratap Pachauri Arvind Kumar Tyagi 《Journal of plant nutrition》2016,39(3):348-364
Apparent utilization of zinc (Zn) and potassium (K) fertilizers was examined in rice (Oryza sativa L.)-wheat (Triticum aestivum L.) using combinations of no K; soil applied K levels and no Zn; soil and foliar applied Zn. Application of 33.2 kg K ha?1 in rice and 24.9 kg K ha?1 in wheat along with foliar spray of 2 kg Zn ha?1 at 30 and 60 days gave the highest mean grain yields. Foliar application of zinc increased Zn concentration in flag leaves, grain, and straw of rice and wheat and K concentration in flag leaves of rice and straw of wheat significantly. Potassium application increased Zn concentration in rice grain and straw and K concentration in wheat straw significantly. Zinc and K increased the uptake of each other in grain; straw and total uptake by both crops significantly. Zinc fertilizer enhanced the utilization of soil K. Potassium fertilizer enhanced the utilization of applied Zn. 相似文献
6.
A. Moreira L. A. C. Moraes G. S. Aquino 《Communications in Soil Science and Plant Analysis》2018,49(15):1844-1854
In plants, iron (Fe) and manganese (Mn) have many functions, as the transport and electron transference during photosynthesis, and their deficiencies affect the chlorophyll formation, plant growth and grain yield (GY). We carried out two experiments under greenhouse conditions with the aim of determining the influence of Fe and Mn on nutritional status, physiological components, soil chemical properties and yield components of soybean plants. In both experiments, five Fe and Mn rates were used. The GY, shoot dry weight yield (SDWY), the number of grain per pot (NGP), photosynthesis rate (A) and chlorophyll content were influenced by Fe rates, while GY, SDWY, root length and A were influenced by Mn rates. Iron and Mn concentrations in leaves and grains increased with rates of Fe and nutrients. The Mehlich 1 and DTPA-TEA extractants were efficient to determine the Fe and Mn available in the soil. 相似文献
7.
Upland rice is an important crop in South America, including Brazil. Nutrient interactions are important in determining crop yields. A greenhouse experiment was conducted to evaluate interaction among nitrogen (N), phosphorus (P), and potassium (K) in upland rice production. The treatments applied to upland rice grown on an Oxisol were three levels of N (N0, N150 and N300 mg kg?1), three levels of P (P0, P100 and P200 mg kg?1) and three levels of K (K0, K100 and K200 mg kg?1). These treatments were tested in a 3 × 3 × 3 factorial arrangement. Grain yield, shoot dry weight, plant height, root dry weight, maximum root length, panicle number, 1000-grain weight, and grain harvest index were significantly influenced by N, P, and K treatments. The treatment that did not receive P fertilization did not produce panicle or grain. Hence, P was most yield-limiting nutrient compared to two other nutrients. At the N0P0K0 treatment, rice did not produce grains, indicating severe deficiency of these nutrients in Brazilian Oxisols. Maximum grain yield was obtained with the N300P200K200 treatment. Grain yield had significant positive association with plant height, shoot dry weight, root dry weight, maximum root length, 1000-grain weight, panicle number, and grain harvest index. Among these growth and yield components, shoot dry weight had the highest positive association with grain yield and root length minimum positive association with grain yield. Hence, adopting adequate soil and crop management practices can improve growth and yield components and increase grain yield of upland rice. 相似文献
8.
养分专家系统推荐施肥对苏北地区水稻产量和肥料利用率的影响 总被引:10,自引:2,他引:8
苏北地区水稻集约化种植体系中存在氮肥施用过量、施肥时期与肥料配比不合理、肥料利用率低等现象,是农民收益增加和农业可持续发展的限制因子。为科学、系统地指导苏北地区稻田施肥,提高水稻养分利用效率并降低环境风险,本研究基于地块土壤性状、产量目标及养分管理措施等信息,运行水稻养分专家系统(Nutrient Expert System, NE)进行施肥推荐,并通过田间试验比较了NE推荐施肥对苏北地区水稻产量、经济效益、养分吸收、肥料利用率的影响。试验共设置5个处理,分别为水稻养分专家系统推荐施肥(NE),基于NE处理的减氮(NE-N)、减磷(NE-P)和减钾(NE-K)处理,以及农民习惯施肥(FP)。结果表明:与FP处理相比, NE处理的氮、磷肥偏生产力分别提高44.77%和6.32%,其中氮肥偏生产力达到显著水平(P0.05);钾肥偏生产力显著降低33.55%(P0.05);氮肥、钾肥回收利用率显著提高4.91%、19.35%,磷肥回收利用率与FP处理基本相同。相比于FP处理,NE处理在减少氮肥投入,保证氮、磷、钾肥平衡施用的条件下,水稻增产2.23%,增收6.24%,但差异不显著;水稻植株籽粒中磷和钾积累量分别增加10.32%和51.63%,其中后者达显著水平(P0.05)。综上所述,水稻养分专家系统在苏北地区依据地块信息和智能化施肥系统,指导优化了氮、磷、钾肥的施用量和施用方法,促进了水稻对氮、磷、钾养分的吸收和利用,提高了肥料利用率,具有较好的增产增收效果,可以在苏北地区推广应用。 相似文献
9.
钾对瓜尔豆光合及胚乳中糖类含量的影响 总被引:1,自引:1,他引:1
研究了钾对盆栽瓜尔豆光合及胚乳中糖类物质含量的影响。试验设4个施钾水平:K2O.0(CK)、8.952、13.381和17.857.mg/kg,分别用K1、K2、K3和K4表示。结果表明,增施钾肥可显著提高瓜尔豆叶片中可溶性蛋白、叶绿素含量和净光合速率,并且延长了光合峰值持续时间。在施钾条件下,生长前期叶片中蔗糖(Suc)和葡萄糖(Glc)含量与对照差异不显著;株龄60.d后,增施钾的处理叶片中Suc和Glc含量显著低于对照,子粒中的可溶性总糖、鼠李糖(Rham)、半乳糖(Gal)、Suc含量及多糖总量显著高于对照。不同处理的产量顺序为K3K2CK和K4;胚乳中半乳甘露聚糖(GM)含量为K2K3和CKK4。由于增施K2O.13.381.mg/kg的处理产量最高,其单株生产的糖物质及GM总量也最多。适量增施钾肥能显著提高瓜尔豆叶片的净光合速率,加速糖类物质由叶片向子粒中的运转,促进子粒中糖类物质的积累,提高子粒的产量。 相似文献
10.
ABSTRACT A greenhouse experiment was conducted to investigate the relationships between foliar carbon isotope discrimination (Δ) and above ground dry matter (ADM) at different stages during a plant's life cycle, and grain carbon isotope discrimination and grain yield (GY) at maturity of spring wheat (Triticum aestivum L.) under different nitrogen (N) and water levels. Results showed that ADM and GY both increased significantly with decreasing water stress, while the effects of nitrogen on ADM and GY varied with the water conditions. Foliar and grain carbon isotope discrimination decreased with increasing water stress and increasing nitrogen levels. For all water conditions, relationships between carbon isotope discrimination (foliar and grain) and yields (ADM and GY) were significantly positive (P < 0.001) at various growth stages. However, at the same water level, the correlations were complex, and under well-watered conditions, ADM and GY were strongly and negatively correlated with foliar and grain carbon isotope discrimination at all growth stages (P < 0.001). The correlations were inconsistent and not significant at moderate water level, but were positive under drought. Our results showed that water and nitrogen both significantly affected the relationships between yield and carbon isotope discrimination of spring wheat, that there are interactions between these two parameters, and that environmental conditions such as water and fertilizer must thus be considered in future research on the relationship between yield and carbon isotope discrimination of spring wheat. 相似文献
11.
氮肥后移对强筋小麦氮素积累转运及籽粒产量与品质的影响 总被引:6,自引:0,他引:6
为探索强筋小麦施用氮肥的合理基追比模式,在山西中部麦区水地小麦田,研究了氮肥基施、拔节期追施和孕穗期追施的不同比例(10∶0∶0,7∶3∶0,7∶2∶1,6∶4∶0,6∶2∶2,5∶5∶0,5∶3∶2)对强筋小麦CA0547氮素积累转运及籽粒产量与品质的影响。结果表明:(1)适当追氮对强筋小麦CA0547氮素与干物质积累转运及产量品质有显著的调节效应。(2)追氮能显著提高小麦拔节期后的含氮量,提高花前氮素转运量和花后氮素积累量,促进氮素向籽粒中的累积,同时增加花前干物质转运量和花后干物质积累量,为产量提高提供了物质基础。(3)籽粒氮素中约有68.38%~75.18%是来自花前氮素转运,籽粒产量中约有55.12%~70.04%是来自花后干物质积累。追氮通过显著增加穗数和穗粒数来提高产量,并提高氮素吸收效率和氮素生产效率。(4)追氮可提高籽粒醇溶蛋白、谷蛋白、总蛋白质和湿面筋含量,提高面筋指数和淀粉含量,改善谷醇比和直/支比,进而改善籽粒品质。相关分析亦表明,提高干物质花后积累量与花前氮素转运量可以改善小麦品质。(5)拔节期和孕穗期2次施氮效果不如拔节期1次追施。综合分析得出,在本试验条件下,施氮量150kg/hm~2时,基肥、拔节肥、孕穗肥比例为6∶4∶0能较好的协调产量品质之间的关系。 相似文献
12.
13.
《Communications in Soil Science and Plant Analysis》2012,43(11-12):1479-1485
Abstract Phosphorus (P) fertilization is quite important for crop production grown on Andosols. Fertilizer P‐use efficiency was 17% in a long‐term wheat experiment on a low‐humic Andosol. Residual effects of P fertilization were investigated using field soils in pot experiments. Topsoil was collected from the plots with or without annual P fertilizer at the rate of 65 kg‐P ha?1 for 23 years (nitrogen phosphorous potassium (NPK) soil and nitrogen potassium (NK) soil, respectively). There was no significant difference in dry matter of wheat and P uptake between NPK and NK soils. However, dry matter of rice and P uptake were higher in NPK soil than in NK soil. Inorganic aluminum P (Al‐Pi) and iron P (Fe‐Pi) increased in NPK soil. Increase in Al‐Pi and Fe‐Pi during 23 years contributed little to P uptake by wheat, and repeated P fertilization is indispensable to obtain acceptable grain yield. 相似文献
14.
麦秆还田下钾肥减量对水稻产量及钾肥利用率的影响 总被引:5,自引:0,他引:5
我国土壤缺钾程度日益加重,作物秸秆中钾素含量较高,还田后可替代部分化学钾肥,缓解土壤钾素不足。为研究秸秆还田替代钾肥的效果,本文采用田间试验方法,以常规施钾[135 kg(K2O)·hm~(-2)]处理为对照,研究了在秸秆粉碎翻压还田(6 000 kg·hm~(-2))条件下钾肥减量10%、20%、30%和40%对水稻钾素吸收累积量、水稻产量、钾肥偏生产力及经济效益的影响。结果表明:在秸秆还田的基础上,水稻植株的钾素含量和累积量随着钾肥施入量的减少而降低。钾肥施用量减少10%~40%,水稻有效穗数、每穗粒数和结实率略有降低,水稻产量和产值有所下降,钾肥减量10%、20%和30%时,对水稻产量和产值的影响不显著(P0.05)。钾肥偏生产力随着钾肥施用量的减少而提高,钾肥减量10%、20%、30%和40%处理的水稻钾肥偏生产力比不减钾处理分别提高8.4%、18.9%、33.8%和44.4%。总体而言,在常规施钾条件下,秸秆还田后随着减钾量(10%~40%)的增加,水稻钾素累积量、产量和产值均呈下降趋势,而钾肥偏生产力呈增加趋势;减钾30%以内可显著提高水稻钾肥偏生产力(P0.05),对水稻产量及产值的影响不显著(P0.05)。 相似文献
15.
《Communications in Soil Science and Plant Analysis》2012,43(7-8):1139-1156
Abstract This study evaluated the effects of four different kinds of compost: pea–rice hull compost (PRC), cattle dung–tea compost (CTC), hog dung–rice hull compost (HDR), and hog dung–sawdust compost (HDS). These types of compost differ in nitrogen composition and in the dry matter yield and nutrient accumulation [nitrogen (N), phosphorus (P), potassium (K)], of rice plants. The rice (Oryza sativa L.) plants were planted in an Oxisol soil. Plants were cultivated in pots, which contained 3 kg of soil, mixed with the four different composts (PRC, 404 g; CTC, 395 g; HDR, and HDS, 450 g) and chemical fertilizer (CHEM) (N:P2O5:K2O=120:96:72) The residual effect was studied after the crop was harvested. All treatments were replicated four times, with a randomized complete block design. The nutrient concentrations in the root, leaf sheath, leaf blade, stalk, and grain were analyzed at different growth stages. After the first crop, the dry matter yield and the amount of N, P, and K absorbed from the CTC or HDS treatments were higher than those of the other treatments, at the most active tillering stage. The growth and nutrient accumulation of rice plants given the PRC treatment were higher than those given the CHEM treatment at the heading stage or the HDR treatment at the maturity stage. In the second crop, the dry matter yield from the PRC, CTC, and HDR treatments was higher than from the other treatments. The nutrient accumulation of the rice plants was positively correlated with the dry matter yield. The residual effect of the HDS compost was the least among all four composts. 相似文献
16.
Taia A. Abd El–Mageed Ahmed M.A. El-Sherif Mahmoud M. Ali Mohamed H. Abd El-Wahed 《Archives of Agronomy and Soil Science》2017,63(6):827-840
A 2-year field experiment (2013 and 2014) was conducted in calcareous soil (CaCO3 19.2%), on soybean grown under three irrigation regimes 100%, 85% and 70% of crop evapotranspiration combined with three potassium (K2O) levels (90, 120 and 150 kg ha?1). The objective was to investigate the complementary properties of potassium fertilizer in improving soybean physiological response under water deficit. Plant water status (relative water content RWC, chlorophyll fluorescence Fv/F0 and Fv/Fm), had been significantly affected by irrigation or/and potassium application. Potassium improved growth characteristics (i.e. shoot length, number, leaf area and dry weight of leaves) as well as physiochemical attributes (total soluble sugars, free proline and contents of N, P, K, Ca and Na). Yield and yield water use efficiency (Y-WUE) were significantly affected by irrigation and potassium treatments. Results indicated that potassium application of 150 and 120 kg ha?1 significantly increased seed yield by 29.6% and 13.89%, respectively, compared with 90 kg ha?1 as average for two seasons. It was concluded that application of higher levels of potassium fertilizer in arid environment improves plant water status as well as growth and yield of soybean under water stress. 相似文献
17.
《Soil Science and Plant Nutrition》2013,59(4):496-508
Abstract Dry seeding has been identified as an option for increasing cropping intensity and productivity in rainfed ricelands. Managing drought and nutrients are important for increasing yield, but the interactive effects of drought and nutrients on dry-seeded rice (Oryza sativa L.) growth have not been systematically investigated. Two experiments were carried out in 1994 and 1995 to analyze the effects of N fertilizer rate and the use of controlled-release fertilizers (CRFs) on the growth and yield of dry-seeded rice grown on a silty clay loam (Typic Tropaquept) subjected to water stress at different crop stages. In both years, in the main plots, rice was subjected to water stress at four different stages of development. The subplots were designed to compare the effect of the application of prilled urea and CRFs Osmocote (1994) and Polyon 12 (1995). Four N rates (0, 60, 120 and 180 kg ha?1) were imposed on rice in the sub-subplots (1994 only). The N fertilizer source did not affect any of the measured parameters. Irrespective of the N the fertilizer rates, grain yield and total dry matter accumulation of rice plants stressed at the flowering stage (WSFL, 1994) and panicle initiation stage (WSPI, 1995) were significantly lower than those of well-watered plants and plants stressed at the vegetative stage. Water stress during the grain-filling stage reduced the grain yield in 1995 when the stress was severe. Application of N fertilizer increased the yield compared with zero N in all water treatments, except for the WSFL plants whose yield did not change. The WSFL treatment also significantly reduced agronomic N-use efficiency. 相似文献
18.
Summary A pot experiment was conducted to study the N availability to wheat and the loss of 15N-labelled fertilizer N as affected by the rate of rice-straw applied. The availability of soil N was also studied. The straw was incorporated in the soil 2 or 4 weeks before a sowing of wheat and allowed to decompose at a moisture content of 60% or 200% of the water-holding capacity. The wheat plants were harvested at maturity and the roots, straw, and grains were analysed for total N and 15N. The soil was analysed for total N and 15N after the harvest to determine the recovery of fertilizer N in the soil-plant system and assess its loss. The dry matter and N yields of wheat were significantly retarded in the soil amended with rice straw. The availability of soil N to wheat was significantly reduced due to the straw application, particularly at high moisture levels during pre-incubation, and was assumed to cause a reduction in the dry matter and N yields of wheat. A significant correlation (r=0.89) was observed between the uptake of soil N and the dry matter yield of wheat with different treatments. In unamended soil 31.44% of the fertilizer N was taken up by the wheat plants while 41.08% of fertilizer N was lost. The plant recovery of fertilizer N from the amended soil averaged 30.78% and the losses averaged 45.55% 相似文献
19.
有机水稻品种产量、品质和氮素吸收利用的关系 总被引:3,自引:0,他引:3
HUANG Li-Fen YU Jun YANG Jie ZHANG Rong BAI Yan-Chao SUN Cheng-Ming ZHUANG Heng-Yang 《土壤圈》2016,26(1):85-97
Due to the relatively late start of organic rice (Oryza sativa L.) research in China, there is a still lack of systematic research on rice varieties, organic fertilizer management practices, and especially the mechanisms of nitrogen (N) uptake and utilization. Three rice varieties, Nanjing 5055, Nanjing 9108, and Nanjing 46, were grown at organic farming (OF) with three organic fertilizer levels (103.2, 160.8, and 218.4 kg N ha-1) and conventional farming (CF) with regular chemical fertilizers. Rice grain yields, yield components, and quality, dry matter accumulation, and plant N were measured at different growth stages during the 2012 and 2013 growing seasons. Compared with CF, OF had a significantly reduced yield. Nanjing 9108 showed significant reductions in number of panicles per unit area and the percentage of filled grains, and had the lowest yield. The effects of fertilizer type and application rate on dry matter accumulation during the main growth periods were significant for all varieties. The N content and uptake of organically grown rice were lower compared with that of rice under CF. The N recovery efficiency and N agronomic efficiency were significantly lower, whereas N physiological efficiency and N partial factor productivity were greater under OF than under CF. Under OF, the processing quality showed a slight but insignificant decline, protein content and gel consistency increased, and amylose content decreased compared with those under CF. Correlation analysis showed that under OF, grain yield was significantly correlated with N uptake. The medium organic fertilizer level (160.8 kg N ha-1) was found to be the optimum fertilizer treatment, and Nanjing 46 appeared to be the best variety for organic rice cultivation. To increase rice grain yields and reduce the potential risk of non-point source pollution in organic agriculture, further research is needed to improve the N use efficiency in organic rice cultivation. 相似文献
20.
Christos Noulas Juan M. Herrera Miltiadis Tziouvalekas Ruijun Qin 《Communications in Soil Science and Plant Analysis》2018,49(7):763-781
Four spring wheat genotypes (Triticum aestivum L.) were grown without (N0 = 0 kg N ha?1) and under ample (N1 = 250 kg ha?1) nitrogen (N) fertilizer in field experiments in two seasons. The aim was to assess genotypic variation in N use efficiency (NUE) components and N-related indices during grain filling thus to identify superior wheat genotypes. Leaf chlorophyll (SPAD) readings at crucial growth stages were employed to help differentiate genotypes. Interrelations between yield and N-related indices with SPAD, where also assessed to explain possible pathways of improving NUE early in the growing season. Results showed that genotypic effects on NUE were mostly evident in 2000, a year with drier preanthesis and wetter postanthesis than the normal periods. ‘Toronit’ almost always had the highest biomass yield (BY) and grain yield (GY). Except in 1999 under N0, ‘L94491? showed the highest % grain N concentration (GNC). Genotypes affected SPAD at almost all stages and N fertilization delayed leaf senescence for all genotypes and growth seasons. Correlations between SPAD at different growth stages and GY, N biomass yield at maturity (NBYM) and GNC were significant (P≤ 0.001), positive and strong/very strong (>r = 0.7). N translocation efficiency (NTE) was inversely related to PANU (~r = ? 0.77, P≤ 0.001), suggesting that N after anthesis is being preferentially transported to the ears to meet the N demand of the growing grains. It is concluded that there is still a large potential for increased NUE by improved N recirculation, use of fast and inexpensive crop N monitoring tools and high yielding, N uptake efficient genotypes.Abbreviations: NUE, Nitrogen use efficiency; SPAD, Minolta SPAD-502 chlorophyll meter, NHI, nitrogen harvest index; HI, Harvest index; NTE, N translocation efficiency from vegetative plant parts to grain; DMTE, dry matter translocation efficiency; CPAY, contribution of pre-anthesis assimilates to yield; PANU, Post-anthesis N uptake, d.a.s., days after sowing, N0, zero (0) kg ha?1 applied N fertilizer, N1, 250 kg ha?1 applied N fertilizer. 相似文献