Rice yield gaps in irrigated systems along an agro‐ecological gradient in West Africa

Irrigated rice (Oryza sativa L.) in West Africa covers about 12 % of the regional rice‐growing area, and is produced all along the agro‐ecological gradient from the forest zone to the Sahara desert margins. Spatial and temporal variability of yield gaps (i.e., difference between actual and potential yield) were determined to set priorities for research and target technologies. On‐farm trials were conducted on 191 irrigated lowland fields in the humid forest, the savanna and the Sahel. Farmers' yields were compared with those of super‐imposed treatments of improved fertilization and weed management. Farmers' yields varied between 0.2 and 8.7 Mg ha^‐1, with average yields of 3.4 Mg ha^‐1 (Guinea savanna), 3.6 Mg ha^‐1 (humid forest), 3.9 Mg ha^‐1 (Sahel), and 5.1 Mg ha^‐1 (Sudan savanna). Simulated potential yields increased from 7 Mg ha^‐1 in the forest to about 10 Mg ha^‐1 in the Sahel. Accordingly, yield gaps were large, ranging from 3.2 to 5.9 Mg ha^‐1. Researcher weed control in the Sahel gave grain yield increases of about 1.0 Mg ha^‐1. Improved weed and N fertilization management increased yields by 1 to 2 Mg ha^‐1 in the forest and Guinea savanna sites. A share of 57‐80 % of the yield gap could not be accounted for. Improving weed control is likely to have the highest pay‐off in the Sahel while improved management of fertilizer N will be most beneficial in the forest and savanna environments.     

Yield and phosphorus efficiency of some lowland rice varieties at different levels of soil‐available phosphorus

Abstract

A field experiment was conducted on an Aerie Haplaquept soil to study the effect of phosphorus (P) deficiency in soil on the P nutrition and yield of five modern varieties of rice, viz., Purbachi, BR1, BR3, BR14, and BR29, popular with the rice farmers of Bangladesh. Soil‐available P in the different plots of the experimental field varied widely, from 2.8 to 16.4 ppm. This plot to plot variation in soil‐available P content resulted from differences in the total amounts (0 to 480 kg ha^‐1) of P the plots had received over a period of 8 years in a long‐term P fertilizer trial conducted previously in the same field. Phosphorus deficiency in soil drastically reduced the grain yield of all the rice varieties. In severely P deficient plots, where soil‐available P was around 3 ppm, the yield was less than 1 ton ha^‐1 while in plots containing an adequate P level, i.e., >6 ppm, the yield was more than 41 ha^‐1. Rice yield increased linearly with an increase in soil P content up to 6 ppm, and the highest grain yield for any variety, obtained at 6–7 ppm of soil‐available P leveled off at this point. Soil P deficiency not only decreased rice yield severely but also decreased P content in straw and grain drastically. However, differences among rice varieties were noted in P nutrition, particularly at low soil P levels. The rice varieties differed markedly also in respect of internal P efficiency. The BR29 showed the highest internal P efficiency both at low and high soil P levels. In all the rice varieties, internal P efficiency decreased with an increase in soil P levels.     

Barley yield and weed development as affected by crop sequence and tillage systems in a semi‐arid environment

Abstract

In order to monitor barley and weed development on a loamy sand soil subjected to different agronomic practices, field experiments were conducted for three growing seasons (1992–95) in a semi‐arid agrosystem in central Spain. For eight years, independent plots were managed with three crop sequences: barley (Hordeum vulgare L.)?vetch (Vicia sativa L.); barley? sunflower (Helianthus annuus L.); and a barley monoculture. In all cases, two tillage systems were implemented: no‐tillage and conventional tillage. In the years with standard rainfall (400 mm) an improvement in growth‐related cultivation variables and yield components of barley were observed in plots under barley?vetch rotation and/or conventional tillage. In drier conditions (<350 mm) the growth rate, crop yield and yield components of barley tended to improve under the no‐tillage system. Barley?vetch rotation and/or conventional tillage increased nitrate‐nitrogen (NO₃‐N) content in barley plants. Similar results were found for the concentrations of nitrogen (N), phosphorus (P), potassium (K), calcium (Ca), and magnesium (Mg). In addition, the plots under crop rotation showed a weed biomass with a high concentration of N, K, and Ca in comparison with plots under monoculture. The lack of spring herbicide treatment in the no‐tillage plots led to a 3‐fold increase in weed density compared with the plots under conventional tillage.     

转CryIAb水稻对稻田杂草群落组成及多样性的影响

尽管基因工程技术可以增加作物产量, 但转基因作物是否对农田生态产生影响受到广泛关注。本研究通过田间定位试验, 应用群落生态学方法研究了转CryIAb基因抗虫水稻"Mfb"连续2年在传统栽培和半野生条件下对稻田杂草群落组成及多样性的影响。调查结果显示: 转CryIAb基因稻"Mfb"与非转基因稻"明恢86"田间杂草种类没有显著差异。稻田杂草的频度和密度与栽培方式有关, 半野生稻田杂草的频度和密度显著高于传统稻田, 但相同栽培条件下, 转基因稻"Mfb"与非转基因稻"明恢86"田间杂草频度和密度在整个生长期内均无显著差异。半野生稻田物种丰富度(Sr)指数明显大于传统稻田; 相同栽培条件下, 相同生长时期抗虫转基因水稻"Mfb"与其非转基因对照"明恢86"对稻田杂草群落丰富度的影响差异不显著。稻田杂草群落优势度(D)、均匀度(J)以及多样性(H)各处理、各生长时期内转基因稻与非转基因稻相比均没有显著差异。稻田杂草Shannon-Wiener多样性指数变化无明显规律, 相同栽培方式相同生长期的抗虫转基因水稻"Mfb"与其非转基因对照"明恢86"的Shannon-wiener指数差异不显著。综合上述分析, 转CryIAb基因抗虫稻对稻田杂草群落的组成及多样性没有显著影响。     

Incorporation of fallow weed increases phosphorus availability in a farmer’s organic rice fields on allophanic Andosol in eastern Japan

ABSTRACT

We investigated the amount of soil phosphorus (P) in a farmer’s paddy fields under organic farming (OF) for various periods from 0 to 22 years as well as other farmers’ fields under conventional farming. All the fields are located in allophanic Andosol with long history of P fertilizer application, and some of them have been converted to OF across years. After conversion to OF, P was supplied only with winter fallow weeds mainly Foxtail (Alopecurus aequalis), rice residues (rice bran and straw), and guano. We determined total-P (Tot-P) and plant-available P (Av-P), which consists of Truog-P (Tru-P) and Bray-2-P under reducing condition with ascorbic acid (Asc-P), in soils of each field. For both Av-Ps, the ratio to Tot-P increased across years under OF following quadratic functions with both linear and quadratic terms being statistically significant. The ratios showed little changes for the initial 15 (Tru-P) or 10 (Asc-P) years and increased rapidly thereafter. These temporal changes in Av-P were consistent with the rapid increase of the amount of P accumulated in the winter fallow weeds and incorporated in the fields after beginning of OF. These results led us to the hypothesis that the incorporation of winter weeds has contributed to the increase of Av-P in the organic fields across years. We tested this hypothesis by investigating temporal changes of Av-P after suspending the weed incorporation for 2 consecutive years in plots of the organic fields. Both Av-Ps were significantly greater in plots with continued weed incorporation (CWI) than those in plots with its suspension. We further found that the increase of Asc-P in plots with CWI was 4.9-fold the input of total P in the incorporated weeds. This suggests that the incorporation of winter fallow weeds enhanced soil-P availability beyond the supply of P accumulated in the weeds.     

Do abiotic factors cause a gradual yield decline under continuous aerobic rice cultivation? A pot experiment with affected field soils

Abstract

Aerobic rice is a water-saving technology in which rice grows in non-puddled and non-saturated (aerobic) soil without ponded water. A gradual decline in rice yield was found in field plots at the farm of the International Rice Research Institute, Los Baños, Philippines, where rice has been cultivated continuously for 10 cropping seasons under aerobic rice conditions. We investigated whether abiotic soil factors lead to the observed yield decline. An aerobic rice pot experiment was conducted using field soils from flooded rice plots and from the 10-season-long aerobic rice cultivated plots (referred to as 1st-season and 11th-season aerobic rice, respectively). Subtreatments consisted of soil sterilization by oven heating (at 95°C or higher for 24?h) and a control treatment. The above-ground biomass of 1st-season aerobic rice was significantly greater than that of 11th-season aerobic rice in both the oven-heating and control treatments. Oven heating increased soil N availability and above-ground biomass accumulation over the control in both 1st-season and 11th-season aerobic rice, but the above-ground biomass in the oven-heated 11th-season aerobic rice was still significantly lower than that of the oven-heated and even the untreated (control) 1st-season aerobic rice. These results suggest that abiotic factors contribute to the gradual yield decline observed in the field plots.     

鸭舌草对水稻生长和产量性状的影响及其防治经济阈值的研究

鸭舌草是稻田的恶性杂草,严重危害水稻生长发育,降低水稻产量。通过研究稻田鸭舌草的危害及其防治经济阈值,可以达到规范稻田鸭舌草防除体系、推动杂草防除现代化和减少除草剂对生态环境污染的目的。采用大田试验研究了不同密度的鸭舌草对水稻生长发育和产量性状的影响及其防治经济阈值。研究结果表明,本试验条件下,当鸭舌草密度为80株·m-2时,鸭舌草积累的生物量(鲜重)达17 t.hm-2,地上部吸收的N、P、K养分分别为32.66 kg·hm-2、9.17 kg·hm-2和58.17 kg·hm-2。在鸭舌草的竞争下,田间光照状况恶化,水稻生长受到抑制。鸭舌草密度为80株·m-2的处理与无鸭舌草对照相比,水稻株高下降20%,有效穗下降46%,穗长下降11%,而水稻空粒数增加3.5倍,导致产量降低55%。平方根模型可以较好地拟合鸭舌草密度(x)与水稻产量损失率(y)间的关系[y=8.437 1+5.024 9sqrt(x),F=177.42,P<0.000 3]。在水稻产量为6 000~9 000 kg·hm-2时,人工防除鸭舌草的经济阈值为4.0~14.8株·m-2;而4种化学除草剂[10%苄嘧磺隆WP、10%吡嘧磺隆WP、48%灭草松水剂、56%二甲四氯钠粉剂(辉县)]计算的经济阈值较低,为1.0~1.6株·m-2。结果说明,鸭舌草对水稻生长有抑制作用,并导致水稻产量损失;而经济阈值的计算表明,化学除草剂防治鸭舌草具有明显的经济优势。     

Contribution of fallow weed incorporation to nitrogen supplying capacity of paddy soil under organic farming

ABSTRACT

We studied soil nitrogen (N) management in a farmer’s organic rice farming in Japan, where the farmer applied no external N but incorporated gramineous fallow weeds and rice residues as in situ N sources. We focused on the effect of fallow weed incorporation on N-supplying capacity of the paddy soil by tracking decomposition of ¹⁵N-labeled fallow weeds after incorporation. The result fits well to the first order kinetics with the decomposition rate of 34.3% a year. A model of soil N accumulation and mineralization based on the first order kinetics showed that soil organic N originated from the incorporated weed would become saturated at the level 1.92 folds the annual input of weed N after several consecutive years of the incorporation. Mineralizable soil N (Min-N) of the weed origin would also become saturated after several years accounting for 21.2% of the total Min-N which includes the indigenous soil N from plow layer. We suspended weed incorporation (SWI) in a sub-plot of the fields for two consecutive years to compare Min-N therein with that in another subplot in the same fields subjected to continued weed incorporation (CWI). After 2 years of the suspension treatment, Min-N in SWI decreased to a similar extent as estimated with the soil-N model based on the first-order kinetics, with which we estimated that 16.9% of annual N uptake by the rice plants originated from the weed including 5.9% from the weed incorporated in the same year and 11.0% from that in the past years. N inflow to soil organic N from the weed was very close to N outflow attaining the steady state. The rice yield could thus be sustained by maintaining the soil N-supplying capacity via the internal cycling of fallow weed N.     

浮萍覆盖对稻田杂草群落组成及多样性的影响

在农业可持续发展的背景下,稻田杂草防控需要兼顾生物多样性的保护。为了解浮萍覆盖对稻田杂草群落组成及物种多样性的影响,运用群落生态学的方法,研究了多根紫萍覆盖(SP)、少根紫萍覆盖(LP)和不投放浮萍(CK)3种处理下稻田杂草发生量和群落多样性在水稻4个生育期(分蘖期、孕穗期、扬花期和成熟期)的动态变化,并对水稻产量进行分析。结果表明:SP和LP处理在前两生育期分别比CK显著降低杂草密度60.3%～75.8%和81.1%～90.4%,在整个水稻生育期能分别降低杂草鲜重生物量48.0%以上和81.3%以上,杂草群落中阔叶类杂草比例明显下降。不同处理下,稻田最主要杂草类别均是莎草科杂草;不同处理的杂草群落中重要杂草的种类和相对重要程度都有较大差异,SP和LP处理重要值较高的杂草均为莎草科的萤蔺和碎米莎草,CK处理重要值较高的杂草则为阔叶类的鸭舌草;在多数生育期,两种浮萍覆盖下的杂草群落的Margalef丰富度指数、Shannon-Wiener多样性指数和Simpson优势度指数均与CK无显著差异。SP和LP处理水稻的每穗粒数和穗重均有不同程度显著提高, SP处理的水稻产量显著提高28.0%。综合上述分析,稻田投放初始覆盖面积70.0%的多根紫萍和少根紫萍都能在降低稻田杂草密度和生物量的同时维持杂草群落的多样性,且多根紫萍覆盖能促进水稻产量增长,对保护稻田生物多样性和促进农业可持续发展有重要意义。     

Long-Term Fertilization Effects on Rice Productivity and Nutrient Efficiency in Korean Paddy

ABSTRACT

Long-term fertilization tests evaluated rice (Oryza sativa) productivity in relation to application of nitrogen (N)-phosphorus (P)-potassium (K) (120-34.9-66.7 kg ha^{? 1}, respectively) during 1967–1972 and N-P-K (150-43.7-83.3 kg ha^{? 1}, respectively) during 1973–2000. The comparison treatments (NP, PK, and NK) and the control (not fertilized) were selected for calculating nutrient efficiency. Rice grain yield increased at a 17.78 kg ha^{? 1} yr^{? 1} in the control, mainly due to development of improved cultivars. Phosphorus management was found to be important for indigenous fertility and rice productivity in this paddy soil. Yield increased significantly with P fertilization. Without N fertilization (PK), rice productivity increased 56.85 kg ha^{? 1} yr^{? 1} from 62% of NPK at the initial stage to 74% after passing 34 years, which might be affected by increasing biological N fixation with P accumulation in soil. In NK treatment, rice yield increased at a relatively low rate (37.82 kg hr^{? 1} yr^{? 1}) from the same rice productivity with that of NPK in 1967 to 91% after 34 years. In comparison, yield increased at a high rate (62.82 kg hr^{? 1} yr^{? 1}) without K fertilization (NP) from ca. 90% of NPK and might exceed the yield of NPK after 64 years of long-term fertilization. Therefore, K fertilization level might be readjusted after long-term fertilizing in paddy soil.     

BORON AND LIME EFFECTS ON YIELD AND DEFICIENCY SYMPTOMS OF RICE GROWN IN GREENHOUSE ON ACID TYPIC GLOSSAQUALF*

ABSTRACT

No boron (B) deficiencies have been reported for rice (Oryza sativa L.) grown in the United States and, when occurring elsewhere, reports often lack details of deficiency symptoms and leaf-B critical values. An experiment was conducted to determine the effect of B and lime on yield, pollen viability, and to determine diagnostic symptoms of B deficiency in rice. Rice cv. “Bengal” was grown in the greenhouse on a soil acquired from a rice farm from SW Louisiana in the United States, a Caddo silt loam (Caddo sl) (Typic Glossaqualf, fine-silty, siliceous, thermic), treated with 0.44?mg?B?kg^?1 (+B) or no B (?B). Split plots were limed at rates of (i) none; (ii) 224?mg?kg^?1 CaO+40.3?mg?kg^?1 MgO; and (iii) 673?mg?kg^?1 CaO+121?mg?kg^?1 MgO. Rice was also grown in ?B and +B potting media and in ?B sand culture using nutrient solution identical to that used in other studies of ours. Rough-rice yields from the +B Caddo sl treatment was 11% higher than from the ?B treatment (29.3 vs. 26.3?g?pot^?1; P=0.02). The yield increase was likely due to fewer damaged pollen (8%) found from the +B than the ?B treatment (17%; P=0.014). Leaf-B at tillering was 11.3?mg?kg^?1 for the B-treated rice and 7.1?mg?kg^?1 from the ?B treatment. Liming did not significantly affect leaf B or yields. Boron deficiency symptoms were found only in the ?B sand-culture where yields were 1.1?g?pot^?1, 96% less than that from the +B Caddo sl. Symptoms were like those found in our earlier hydroponic studies with twisted and whitish leaf tips starting at tillering and 1-cm white bands across the width of leaves. Maturity was delayed about four weeks. Boron deficiency from the Caddo sl and sand treatments occurred with leaf B≤7?mg?kg^?1 and with a Caddo sl soil B of 0.18?mg?hws (hot-water soluble) B?kg^?1. Given that no B deficiency symptoms were found in rice experiencing moderate yield loss grown on the rice soil, one must rely on soil and plant analyses to help detect likely candidates for moderate B deficiency.     

Biochar use in a legume–rice rotation system: effects on soil fertility and crop performance

The aim of this study was to determine whether by applying biochar, it is possible to augment the beneficial effects of legume–crop rotation systems on soil fertility and crop performance. Repeated experiments were established in 2012 and 2013 in South-western Benin using a split-split plot design. Two legumes, Mucuna pruriens (mucuna) and Vigna unguiculata (cowpea), were planted for 42 days on biochar-amended and unamended plots and subsequently cut and applied as mulch 5 days before planting rice. Rice plants were either fertilized or not using a fertilizer rate of 60, 30, and 30 kg ha^?1 of N, P₂O₅, and K₂O, respectively. The results showed that the application of legume green manures and fertilizer, either singly or in combination, improved soil nutrient availability, CEC, shoot yield, and grain yield of rice on both biochar-amended and unamended plots. However, the effect was significantly (p < 0.05) greater on biochar-amended plots. The mean grain yield for all cropping seasons was 1.8 t ha^?1 for biochar-amended plots and 1.3 t ha^?1 for unamended plots. The greater grain yield of rice on biochar-amended plots was associated with improved soil fertility and increased N uptake.     

Influence of nitrogen and weed management on the productivity of upland rice

Nitrogen and weeds are two important factors that influence the productivity of rainfed upland rice (Oryza sativa L.) in tropical Asia. A low recovery of applied fertilizer N in rainfed uplands is generally associated with high nitrate leaching losses and weed interferences. Field experiments were conducted during the wet seasons of 2002 and 2003 at the research farm of Central Rainfed Upland Rice Research Station, Hazaribag, Jharkhand, India, to determine the response of upland rice to nitrogen applied at 60 kg N ha^–1 as different forms of urea (single pre‐plant application of controlled‐release urea, single pre‐plant application of urea supergranules, and split application of prilled urea with or without basal N) against no N application under three weed‐control regimes (unweeded, pre‐emergence application of butachlor at 1.5 kg a.i. ha^–1 supplemented with one single hand weeding or two hand weedings). The response of rice to applied N varied greatly among the three weed‐control regimes. Across the different N treatments, the application of 60 kg N ha^–1 resulted in a grain‐yield increase above the unfertilized control of only 0.24 Mg ha^–1 in unweeded treatments, whereas yields increased by 1.07 Mg ha^–1 when butachlor application was supplemented with a single hand weeding and by 1.28 Mg ha^–1 with two hand weedings. Among the weed‐control measures, hand weeding twice produced highest grain yield in both years. The comparison of different forms of urea showed that a single pre‐plant application of controlled‐release urea resulted in average grain yields of 1.57 and 1.87 Mg ha^–1 compared to 1.32 and 1.30 Mg ha^–1 in the case of the recommended practice of split‐applied prilled urea in the years 2002 and 2003, respectively. The highest agronomic N use efficiency of 15–20 kg grain per kg N applied and the highest apparent N recovery of 39%–45% were attained with controlled‐release urea, suggesting that this N form is particularly beneficial for upland‐rice cultivation under variable rainfall conditions, provided weeds are controlled.     

POTASSIUM-CONSTRAINED HIGH YIELDS IN IRRIGATED RICE

Nutritional constraints often restrict yields of field crops in farmers’ fields. Determination of cut-off yield would increase the understanding of yield-limiting nutrients. The present study aimed to determine minimum rice yield target of high-yielding subpopulation in farmers’ fields and to identify the most limiting nutrient in farmers’ fields. Popular high yielding rice was grown in 42 farmers’ fields with two treatments – farmers’ nutrient management plan (FP) and improved nutrient management plan (INM). Nutrient composition was determined from Y-leaf after 45– 50 days of transplanting. Yield cutoff value was determined from compositional nutrient diagnosis (CND) generic model. The CND generic model gave 6.90 Mg ha^?1 as minimum cutoff yield of the high-yield subpopulation. Potassium (K) was identified as the main yield limiting nutrient for rice in piedmont soils. Rice in farmers’ fields may require higher K fertilizer dose for better yield.     

千金子与异型莎草对直播水稻产量的影响及其生态经济阈值研究

千金子和异型莎草均是直播稻田的恶性杂草,危害水稻的生长发育,对水稻生产造成严重威胁。为明确千金子和异型莎草对直播稻产量的影响及其生态经济阈值,采用添加系列试验法和模型拟合法研究不同密度千金子和异型莎草组合和与水稻不同共生时间下水稻产量性状的变化规律。结果表明,随着千金子和异型莎草组合密度增加以及与水稻共生时间延长,水稻的有效穗数、每穗实粒数、千粒重和产量均逐渐下降。当千金子+异型莎草密度增加至8株·m~(-2)+8株·m~(-2),水稻产量仅2 236.37kg·hm~(-2),与空白对照相比产量损失率为71.14%;在千金子4.67株·m~(-2)+异型莎草3.50株·m~(-2)的平均密度下,二者与水稻在整个生育期共生时,水稻产量为5 138.33 kg·hm~(-2),与空白对照相比产量损失率为33.37%。低密度、短时间共生的两杂草组合对水稻产量无显著影响。但从密度梯度看,在两种杂草与水稻整个生育期共生条件下,杂草复合密度达到4.14株·m~(-2)时,则必须对其进行防除;从共生时间的尺度看,在试验设置密度条件下,必须在水稻种植后的16.7 d进行杂草防除,否则将对水稻产量和经济效益造成显著影响。在对复合杂草生态经济阈值分析的基础上进行杂草防除,可避免除草剂盲目使用,对减少除草剂使用次数,降低除草剂用量、节约除草成本和保护农田生态环境具有指导作用。     

长雄野生稻及其后代抑草效果与化感潜力和农艺性状的关系

明确化感潜力和农艺性状对长雄野生稻(Oryza longistaminata)及其后代抑草效果的影响及相互关系,对发掘与利用野生种质资源的化感基因培育水稻化感新品种具有重要意义。本研究以化感抗稗草长雄野生稻、亚洲栽培稻‘RD23’及其杂交F1代(RD23×O.longistaminata)和F2代单株分离群体为材料,采用室内生物测定和温室盆栽试验相结合方法,研究化感潜力和农艺性状对长雄野生稻及其后代抑制稗草的影响,并探讨三者的相互关系。结果表明,室内生物测定为强化感潜力的水稻材料在盆栽条件下对稗草的密度防效、生物量防效和株高抑制作用并非总强于弱化感和无化感作用的水稻材料,但在根际距离0~3 cm时,强化感潜力水稻材料对伴生稗草的抑制效应显著强于弱化感潜力和无化感作用的水稻材料。不论供试材料化感潜力强弱,当根际距离大于3 cm时,株型高大、分蘖强的供试水稻材料在盆栽条件下对稗草的密度防效、生物量防效和株高抑制作用均显著强于株型矮小、分蘖少的材料。供试水稻材料在不同苗龄对稗草的抑制作用也存在显著差异,苗龄60 d的供试材料在根际距离0~3 cm范围内对伴生稗草的密度防效均小于苗龄30 d的对应处理组,但对伴生稗草的生物量防效和株高抑制作用则大于苗龄30 d对应处理组;之后随着距离的增加,除根际距离在3~6 cm的密度防效外,其他均无显著差异。在根际距离0~3 cm时,供试材料的化感综合效应指数(SE)与对伴生稗草的密度防效、生物量防效和株高抑制作用显著相关,但随根际距离的增加相关性逐渐减小;株高和分蘖数与稗草的密度防效不相关,与生物量防效和株高抑制作用存在一定的相关性。研究结果显示,长雄野生稻及其后代田间抑草效果与化感潜力、苗龄、株高和分蘖数等因素相关,在根际距离0~3 cm时,化感作用在苗龄30 d的强化感潜力水稻材料的抑草效应中起主要作用。     

Zinc nutrition of rice as influenced by crop establishment methods,rates of nitrogen and phosphorus fertilization and inoculation with microbial consortia

Abstract

Zinc (Zn) fertilization in rice is important to enhance productivity and increase Zn concentration in rice grain to improve its nutritional status. A field experiment was conducted in wet seasons of 2013 and 2014 to study Zn nutrition of rice in three different crop establishment methods (CEMs) viz. puddled transplanted rice (PTR), system of rice intensification (SRI) and aerobic rice system (ARS), under three different rates of nitrogen (N) and phosphorus (P) viz. 0, 75 and 100% of recommended dose of fertilizer (RDF) (120?kg N ha^?1 and 25.8?kg P ha^?1) and two different sources of N and P viz. chemical fertilizer and microbial inoculation (MI). Concentration and uptake of Zn at different growth stages and in straw and milled rice was significantly higher in PTR and SRI than ARS. Soil DTPA–extractable Zn content of soil was increased by 1142.4, 1140.3 and 755.8?g ha^?1 in PTR, SRI and ARS after two year of Zn fertilization (soil application of 5?kg Zn ha^?1). Zinc nutrition increase its Zn concentration in straw and milled rice and improvement in total uptake was 38.1, 40.3 and 40.8?g ha^?1 when Zn was applied with RDF, 75% RDF + Anabaena sp. (CR1) + Providencia sp (PR3) consortia (MI1) and 75% RDF + Anabaena-Pseudomonas biofilmed bio-fertilizer (MI2), respectively. Positive correlation between milled rice yield and Zn concentration (R²= 0.95 and 0.97) showed the importance of Zn nutrition in improving rice yield. Zinc concentration at 70?days after sowing (DAS) and 100 DAS was also found positively correlated with dehydrogenase activity and microbial biomass carbon in soil.     

Growth and Iron Uptake of Lowland and Aerobic Rice Genotypes under Flooded and Aerobic Cultivation

With increasing water shortages in China, rice (Oryza sativa L.) cultivation is gradually shifting away from continuously flooded conditions to partly or even completely aerobic conditions. The effects of this shift on the growth and iron (Fe) nutrition of different aerobic and lowland rice genotypes are poorly understood. A field experiment was conducted to determine the effects of cultivation system (aerobic vs. flooded), genotype (five aerobic rice varieties and one lowland rice variety), and Fe fertilization [no Fe and 30 kg ha^?1 ferrous sulfate (FeSO₄·7H₂O] on rice grain yield and Fe nutrition. Plants were sampled at tillering and physiological maturity. In both aerobic and flooded plots, Fe application significantly increased shoot dry weight, shoot Fe concentration, and shoot Fe content at tillering but not physiological maturity. At physiological maturity, grain yield and Fe and grain harvest indices were significantly lower in aerobic than in flooded plots. Shoot dry weight and shoot Fe content differed among genotypes at tillering and at physiological maturity. The grain harvest index of aerobic rice genotype 89B-271-17(hun) was significantly greater than that of the other five genotypes when no Fe was applied. Because soil Fe fertilization did not improve the Fe nutrition of rice in aerobic plots, the results indicate that the shift from flooded to aerobic cultivation will increase Fe deficiency in rice and will increase the problem of Fe deficiency in humans who depend on rice for nutrition.     

Growth and yield of paddy rice as affected by tillage and nitrogen levels

Although tropical wetlands are rapidly being developed for the needed increase in rice (Oryza sativa L.) production, knowledge is still limited concerning the optimum soil and crop management practices. A study was thus carried out to evaluate the effects of different tillage systems on the growth and yield of paddy rice, grain yield response to N applications, and weed control. Five experiments were conducted for three consecutive seasons on hydromorphic soils (loamy and sandy loamy, mixed, isohyperthermic Aeric Tropaqualfs) at the International Institute of Tropical Agriculture, Ibadan, comparing the effects of zero tillage (without dry tillage and puddling) and conventional tillage (dry tillage and puddling) at two or more N levels. In two of the above experiments the effects of either two moisture regimens or chemical versus manual weed control were also evaluated.In four experiments there were no statistically significant differences in grain yield between zero-tillage plots sprayed with paraquat and conventional-tillage plots. Only in Experiment 2 did zero-tillage (with paraquat) plots give a significantly lower yield than conventional-tillage plots (5200 versus 5580 kg ha^?1, respectively) but the difference could be explained by greater rat damage in the former. The highly significant response in grain yield to N applications in all five experiments was statistically similar under both tillage systems. The continuous flooding treatment (Experiment 1) gave better weed control and higher grain yield than the saturation moisture regime (6150 versus 5420 kg ha^?1 grain yield). In zero-tillage plots where weeds were slashed before transplanting (Experiment 2), grain yield was lower and the weed growth greater than in zero-tillage and low N level. Satisfactory weed control was obtained with paraquat and continuous flooding.     

Rice Yields Enhanced through Integrated Management of Cover Crops and Phosphate Rock in Phosphorus‐deficient Ultisols in West Africa

The relatively low solubility and availability of phosphorus (P) from indigenous phosphate rock could be enhanced by legumes in the acid soils of humid forest agroecosystems. Crotalaria micans L. was grown in a screenhouse without P or with P from triple superphosphate (TSP) and Malian Tilemsi Rock P. The P response of 20 cover crops was field‐evaluated using TSP and Rock P. In both experiments, the fertilized cover crops were followed by upland rice without mineral N or P application. Mean rice grain yield and agronomic residual P‐use efficiency were similar for both P sources. In the field, 1‐year fallow treatment of Canavalia ensiformis (velvet bean) supplied with Mali Rock P gave the highest rice grain yield of 3.1 Mg ha^?1, more than 180% that of 2‐year continuous unfertilized rice (cv. ‘WAB 56‐50’). Among continuous rice plots, ‘NERICA 2’ (interspecific rice) supplied with Rock P produced the highest yield (2.0 Mg ha^?1), suggesting that ‘NERICA 2’ might have greater potential to solubilize rock P. Results indicate that when combined with an appropriate legume, indigenous rock‐P can release sufficient P to meet the P requirement of the legume and a following upland rice crop in rotation.