Most susceptible stage of rice panicle development to Oebalus pugnax (Hemiptera: Pentatomidae)

Oebalus pugnax (F.) (Hemiptera: Pentatomidae) damage to rice, Orya savita L., reduces rough and head rice yields, and grain quality. O. pugnax feeds on developing kernels, introducing pathogenic fungi and causing a discoloration of the grain known as "peck." The objective of this study was to determine the stage of rice panicle development most susceptible to O. pugnax attack. During 2005 and 2006, in greenhouse and field experiments, rice plants were caged at the boot stage and then infested with adult or nymphal O. pugnax. Plants were infested during one of three stages of panicle development: heading, milk, or soft dough. Insects were allowed to feed on the plants for the duration of each stage and then killed. After maturation, panicles were harvested, and grain was hulled and milled. Grain weight, percentage of pecky grain, and percentage of whole grain after milling were recorded. No differences were found in the weight of rough, brown, or milled rice infested with O. pugnax during different stages of panicle development. Number of filled grains per cage was not affected by O. pugnax, and number of empty grains per cage was affected in two of four experiments. Higher percentage of peck was found in grain from panicles infested during dough and milk than in grain from panicles infested during heading. Adult O. pugnax caused higher percentage of peck than nymphs in all stages of panicle development. An inverse relationship was found between percentage of peck and percentage of whole grain weight only in one of the experiments.     

Attractiveness of stages of rice panicle development to Oebalus pugnax (Hemiptera: Pentatomidae)

Greenhouse experiments were conducted during 2004 and 2005 with male and female Oebalus pugnax (F.) (Hemiptera: Pentatomidae) caged on rice plants at different stages of panicle development with the objective of determining the most attractive stage to O. pugnax. Field-collected insects were released inside cages containing potted plants and observed during morning and afternoon hours for 5 d. Results showed that attractiveness of male and female O. pugnax to plants with panicles at milk and soft dough stages was greater than plants at preheading and heading stages. Preheading plants were the least attractive to the insects, confirming field observations. Results imply that insecticide applications during the preheading stage are likely ineffective and that monitoring efforts during the milk and soft dough stages of panicle development should be intensified.     

Influence of Growth Stage on Fusarium Head Blight and Deoxynivalenol Production in Wheat

Fusarium head blight is a major concern for wheat production worldwide. The fungi that cause the disease may infect head tissues from flowering to late stages of kernel development, but a better understanding of the influence of the time of infection on grain weight reduction and mycotoxin accumulation resulting from the infection process is needed. We investigated the influence of wheat reproductive stage at the time of inoculation on disease and grain quality parameters, especially production of deoxynivalenol (DON) in mature grains. Heads of Norm wheat were spray inoculated with a macroconidial suspension of a DON‐producing isolate of Fusarium graminearum at each of six reproductive stages from flowering to hard dough. Plants were incubated in a mist chamber for 48 h and then moved to the greenhouse until maturity. Norm wheat was susceptible at all stages inoculated but the highest grain weight reduction and DON accumulation occurred in plants inoculated past flowering to late milk stages. However, high incidences of kernel infection and significant levels of DON accumulation resulted from inoculations as late as the hard dough stage, even though there was no corresponding reduction in grain weight compared to non‐inoculated plants. The occurrence of commercially significant levels of DON in plump, high‐yielding wheat may result from infections that occur during favourable environments well after the flowering stages. Late infection and DON production should therefore be a future research focus for wheat breeding and integrated management of FHB and an important consideration for grading systems that employ the presence of visibly damaged kernels as a means of estimating DON content of wheat.     

云南不同类型一季稻产量形成及其与气象因子的关系

利用云南省14个不同海拔农业气象观测站1994-2010年水稻大田发育期和产量观测资料,研究水稻产量形成及气象因子对低产水稻产量构成因素的影响;根据14个站点水稻产量构成因素的系统聚类分析结果和水稻类型,将水稻分为低产粳型、低产籼型、高产粳型和高产籼型4个类型.对这4类水稻产量构成因素的分析结果表明,单位面积颖花量与产量呈极显著正相关,低产粳型水稻产量主要受结实率和颖花量影响,其他3类颖花量对产量影响较大.低产粳型水稻主要受低温的影响,孕穗期低温降低颖花量和有效穗数,孕穗期和抽穗开花期低温增加空壳率,以平均气温、平均最高气温和冷积温的影响较大;乳熟前期较低的平均气温增加秕谷率,同时降低千粒重.低产籼型水稻产量构成因素受多种气象因子的综合影响明显;分蘖期和拔节期一定程度的增温不利于增加低产籼型水稻有效穗数,而分蘖期较多的日照时数和较大的平均气温日较差有利于有效穗数的增加,分蘖期和拔节期气温和日照时数与每穗粒数的关系呈“抛物线型”;低产籼型水稻空壳率一定程度上受抽穗开花期低温的影响,而乳熟前期高温少雨不仅增加秕谷率,还导致千粒重明显下降.     

Effects of nitrogen uptake on rice yield in northern Australia

Summary The yield responses to nitrogen uptake are described for water-sown IR8 rice grown in the wet season in northern Australia. Various patterns of nitrogen uptake were achieved by different times and amounts of nitrogen application in the range 0 to 300 kg per ha. Grain yields increased with nitrogen uptake at flowering stage up to approximately 120 kg per ha but decreased when uptake exceeded this level. The grain yield increase was associated mainly with increased panicle production, while grain yield decrease was associated with a reduction in the weight of ripened grain per panicle. Nitrogen concentration in grain over all experiments increased linearly with nitrogen uptake at flowering, but grain yield was reduced when grain nitrogen exceeded approximately 1.5 per cent. High nitrogen uptake at flowering was presumed to lead to depletion of carbohydrate reserves during the critical grain-ripening phase.     

渍水对四川小麦生理性状及产量的影响

采用二因素裂区设计,连续2年（2011-2012和2012-2013年）以川麦104和内麦836为对象,在小麦苗期、拔节期、孕穗期、开花期分别进行35 d的渍水处理,研究渍水对四川小麦生长和产量形成的影响.结果表明： 苗期渍水减产最大,减产10%～15%,随渍水时期的后移,对产量的影响减小.苗期渍水降低了第3～6叶SPAD值、单株分蘖力和单株成穗数,降低了有效穗数、花后干物质积累量和成熟期干物质量.拔节期渍水降低了第4～7叶SPAD值,孕穗期渍水降低了倒4、倒3、倒2叶SPAD值,拔节期和孕穗期渍水导致花后旗叶SPAD值下降,渐增期灌浆速率（R₁）和平均灌浆速率（R_mean）下降,千粒重下降.开花期渍水对产量影响较小.表明苗期渍水是四川稻茬小麦渍害临界期.     

A comparative screening of hybrid,modern varieties and local rice cultivar for brown leaf spot disease susceptibility and yield performance

Five rice cultivars, one hybrid (WR96), three modern (BR16, BR26, and BRRI Dhan27) and one local (Pari) were screened for reaction to brown leaf spot disease caused by Cochliobolus miyabeanus and performance of yield-related characters. The severity of brown leaf spot varied with growth stages of rice plant as well as different cultivars tested under field condition. Low disease severity was observed at maximum tillering stage compared to moderate to high at dough stage, with hybrid cultivar WR96 showing highest disease, while local cultivar Pari had the lowest. Brown spot disease severity in different cultivars under induced epiphytic condition also followed the similar trend. The results also revealed that most of the yield-contributing characters examined showed wide variations among the cultivars. Modern cultivar BR16 produced the highest panicle length, number of grain per panicle and grain yield per hectare. At the same time as local cultivar Pari generated the lowest number of tiller per plant, panicle length, grain number per panicle and grain yield per hectare. Moreover, hybrid cultivar WR96 produced the highest percentage of spotted grain per panicle and seed yielding C. miyabeanus, and also the lower percentage of seed germination, while the reverse was observed in local cultivar Pari. These findings may allow producers and breeders to select rice cultivar, resistant or tolerant to brown leaf spot disease and to avoid significant reductions in grain yields.     

Point stresses during reproductive stage rather than warming seasonal temperature determine yield in temperate rice

Climate change is predicted to shift temperature regimes in most agricultural areas with temperature changes expected to impact yields of most crops, including rice. These temperature‐driven effects can be classified into point stresses, where a temperature event during a sensitive stage drives a reduction in yield, or seasonal warming losses, where raised temperature is thought to increase maintenance energy demands and thereby decrease available resources for yield formation. Simultaneous estimation of the magnitude of each temperature effect on yield has not been well documented due to the inherent difficulty in separating their effects. We simultaneously quantified the magnitude of each effect for a temperate rice production system using a large data set covering multiple locations with data collected from 1995 to 2015, combined with a unique probability‐based modeling approach. Point stresses, primarily cold stress during the reproductive stages (booting and flowering), were found to have the largest impact on yield (over 3 Mg/ha estimated yield losses). Contrary to previous reports, yield losses caused by increased temperatures, both seasonal and during grain‐filling, were found to be small (approximately 1–2% loss per °C). Occurrences of cool temperature events during reproductive stages were found to be persistent over the study period, and within season, the likelihood of a cool temperature event increased when flowering occurred later in the season. Short and medium grain types, typically recommended for cool regions, were found to be more tolerant of cool temperatures but more sensitive to heat compared to long grain cultivars. These results suggest that for temperate rice systems, the occurrence of periodic stress events may currently overshadow the impacts of general warming temperature on crop production.     

Salinity effects over growth and yield of IR8 rice and its mutant

Abstract

IRm6, an improved useful, EMS induced mutant of IR8 rice exhibits higher salt tolerance than the parent variety at all the growth stages. High salinity levels reduced germination per cent, early seedling growth and mature plant height in both the genotypes. Roots were more sensitive to salinity than shoots. Within seven days from germination, IRm6 accumulated three times more proline than IR8. Toxicity of individual salt concentrations was in order of NaCl>Na₂SO₄>CaCl₂. At germination and early seedling stages, dry weight of the seedling increased while fresh weight decreased with the rise in salinity unlike later growth stages when both fresh and dry weights of mature plants decreased under salt stress. All the yield components were adversely affected by varying degrees of saline treatments. The order of their contributions in final grain yield reduction was, productive tiller number>fertile grain number>grain specific density>1,000 grain weight. Tillering stage was most sensitive to salinity. Grain yield losses between 27-43% in IR8 and 14-30% in IRm6 occurred after salt treatments at flowering and tillering stages, respectively.     

不同环境下水稻谷粒重发育的杂种优势和遗传相关性分析

选用9个不同类型的水稻品种(系),按双列杂交设计(6×5)配成两套亲本和F12个世代的遗传材料,采用数量性状的加性、显性遗传模型、发育遗传模型比较分析了水稻谷粒重发育的杂种优势和遗传相关性。结果表明,早季在谷粒充实前期(1～12d)群体平均优势较小,中后期(13～28d)正向优势趋于明显,在谷粒充实的全过程均表现较小的负向群体超亲优势;晚季则在谷粒充实前中期(1～18d)表现正向群体平均优势。后期(19～28d)优势不明显,在谷粒充实前期(1～12d)表现正向群体超亲优势,之后转为明显的负向群体超亲优势,表明晚季谷粒发育的杂种优势表现较之早季更有利于提高籽粒充实质量,不同发育时期谷粒重之间以及与最终谷粒重之间的遗传相关分析表明,早季以显性相关为主,晚季以加性相关为主,随着发育进程的推进,相关趋于密切。     

Metabolic Profiling and Physiological Analysis of a Novel Rice Introgression Line with Broad Leaf Size

A rice introgression line, NIL-SS1, and its recurrent parent, Teqing, were used to investigate the influence of the introgression segment on plant growth. The current research showed NIL-SS1 had an increased flag leaf width, total leaf area, spikelet number per panicle and grain yield, but a decreased photosynthetic rate. The metabolite differences in NIL-SS1 and Teqing at different developmental stages were assessed using gas chromatography—mass spectrometry technology. Significant metabolite differences were observed across the different stages. NIL-SS1 increased the plant leaf nitrogen content, and the greatest differences between NIL-SS1 and Teqing occurred at the booting stage. Compared to Teqing, the metabolic phenotype of NIL-SS1 at the booting stage has closer association with those at the flowering stage. The introgression segment induced more active competition for sugars and organic acids (OAs) from leaves to the growing young spikes, which resulted in more spikelet number per plant (SNP). The results indicated the introgression segment could improve rice grain yield by increasing the SNP and total leaf area per plant, which resulted from the higher plant nitrogen content across growth stages and stronger competition for sugars and OAs of young spikes at the booting stage.     

水稻低温冷害综合评估方法

基于灰色关联分析法,将水稻不同生育期的冷害致灾因子值和产量结构性状、水稻不同生育期的产量结构性状和最终产量分别视作两个灰色系统,通过寻找各个灰色系统的灰映射关系,建立基于多层次灰色关联分析法的水稻低温冷害综合评估模型;并构建了单站各生育期、全生育期的冷害综合评估指数和区域评估指数,对东北水稻主产区27个站1961—2015年水稻冷害进行分生育期评估.结果表明: 水稻冷害影响程度与各生育期产量丰歉能够较好对应.营养生长期、营养和生殖生长并进期、授粉结实期或满浆期受到冷害影响时,株穗数、平均穗粒数或千粒重有一定减少,空壳率有所增加.典型冷害年温度与单站或区域产量丰歉有较好的对应关系.     

淹涝胁迫对水稻生育后期的生理特性和产量性状的影响

比较研究了水稻（湘中灿３号）在生育后期（孕穗期和乳熟期）进行没顶淹水胁拓处理后几个相关的生理指标和生长发育、产量的形态指标。研究结果显示水稻受淹后完全伸展叶片净光合速率降低,叶绿素含量在孕穗期明显降低,但在乳熟期只有少量下降。电导率明显增加,细胞膜透性增大,脯氨酸含量增加。奶系伤流量和,根系活力降低经与中群伤流液中的主要基酸如Ａｌａ,ＯＰｒｏ,Ｐｈｅ的含量增加,根系伤流量减少,根系活力降低,伤流液     

Chilling Induced Oxidative Stress in Germinating Wheat Grains as Affected by Water Stress and Calcium

Wheat (Triticum aestivum L.) plants were subjected to mild water stress during grain filling at milk (early, medium, and late) and dough (early, soft, hard) stages. The grains harvested from stressed plants were subjected to low temperature stress of 10 °C for 24 h in presence or absence of 1 mM CaCl₂, and embryos were examined for oxidative injury. The embryos of grains water stressed at milk and soft dough stages showed lowest contents of H₂O₂ and malondialdehyde and highest membrane stability index, ascorbic acid content, and activities of catalase, ascorbate peroxidase, and superoxide dismutase as compared to control embryos or water-stressed at other stages. Presence of Ca²⁺ in the medium reduced H₂O₂ and malondialdehyde content and increased ascorbic acid content, and catalase, ascorbate peroxidase and superoxide dismutase activities.     

Physiological and proteomic analysis of rice (<Emphasis Type="Italic">Oryza sativa</Emphasis> L.) in flag leaf during flowering stage and milk stage under drought stress

Hybrid rice has the inferiority of early senescence during reproductive stage. Early senescence of leaves induced by drought causes a constraint on crop productivity. Hence, to better understand traits of drought responsive mechanism in hybrid rice flag leaves during sensitive reproductive stage, we performed physiological measurements and conducted 2-D electrophoresis to investigate proteomic profile of rice flag leaves at flowering and milk stage. 43 proteins showed significant changes in silver stained gels were identified by MS/MS at flowering stage and 54 proteins at milk stage. For flowering stage, inactive CO₂ assimilation and ATP synthesis as well abnormal floral development could be postulated from decreased proteins. Additionally, higher levels of defense-related proteins and antioxidases in drought-stressed leaves suggested active ROS scavenging system. For milk stage, both photosynthesis and CO₂ assimilation were impaired. Disrupted oxidative defense and proteolysis system indicated redox imbalance. Upregulation of NADP-MDH facilitated for CO₂ assimilation and antioxidant system. In conclusion, drought stress during reproductive stage impacted a lot on biological processes in rice leaves at protein level, especially energy metabolism and redox balance.     

Digestibility of whole-crop barley and oat silages in dairy heifers

This study evaluated the digestibility of whole-crop cereal silage (WCCS) made from oats and six-rowed barley harvested at the heading, early milk and early dough stages, and two-rowed barley harvested at the early milk and early dough stages of maturity. The eight WCCSs were fed to 32 Swedish Red heifers in a changeover design over three periods of 28 days each. The heifers were first fed ad libitum for 17 days and then at 0.95 of ad libitum for 11 days of each period. During the last 5 days all faeces and orts were collected to determine the digestibility of the silages. Only the maturity stage effect was significant for the WCCS organic matter (OM) digestibility and the average OM digestibility was higher at the heading stage (698 g/kg) than at early milk (647 g/kg) and early dough (652 g/kg) stages of maturity. For neutral detergent fibre (NDF) digestibility the crop × maturity stage effect was significant. The NDF digestibility decreased from the heading to the early milk stage for both six-rowed barley (746 to 607 g/kg) and oats (698 to 596 g/kg). There was no further significant decrease in NDF digestibility for six-rowed barley at the early dough stage (577 g/kg), but for two-rowed barley it decreased from the early milk (682 g/kg) to the early dough (573 g/kg) stage, and also for oats the NDF digestibility was lowest at the early dough stage (507 g/kg). The decrease in NDF digestibility during maturation was to a large extent compensated by an increase in starch concentration in the crops. The starch digestibility was lower for six-rowed barley at early dough stage (948 g/kg) than at early milk stage (977 g/kg), and was also lower compared with oats (979 g/kg) at early dough stage. The average crude protein (CP) digestibility was higher at the heading (646 g/kg) and the early milk (642 g/kg) stages than at the early dough stage (599 g/kg), and oats had higher average CP digestibility (650 g/kg) than six-rowed (613 g/kg) and two-rowed (624 g/kg) barley. Delaying the harvest of WCCS from the heading to the early milk and dough stage of maturity will decrease the OM digestibility; as a result there is a decreased NDF digestibility.     

Effects of Delaying Transplanting on Agronomic Traits and Grain Yield of Rice under Mechanical Transplantation Pattern

A delay in the mechanical transplantation (MT) of rice seedlings frequently occurs in Huanghuai wheat-rice rotation cropping districts of China, due to the late harvest of wheat, the poor weather conditions and the insufficiency of transplanters, missing the optimum transplanting time and causing seedlings to age. To identify how delaying transplanting rice affects the agronomic characteristics including the growth duration, photosynthetic productivity and dry matter remobilization efficiency and the grain yield under mechanical transplanting pattern, an experiment with a split-plot design was conducted over two consecutive years. The main plot includes two types of cultivation: mechanical transplanting and artificial transplanting (AT). The subplot comprises four japonica rice cultivars. The results indicate that the rice jointing, booting, heading and maturity stages were postponed under MT when using AT as a control. The tiller occurrence number, dry matter weight per tiller, accumulative dry matter for the population, leaf area index, crop growth rate, photosynthetic potential, and dry matter remobilization efficiency of the leaf under MT significantly decreased compared to those under AT. In contrast, the reduction rate of the leaf area during the heading-maturity stage was markedly enhanced under MT. The numbers of effective panicles and filled grains per panicle and the grain yield significantly decreased under MT. A significant correlation was observed between the dry matter production, remobilization and distribution characteristics and the grain yield. We infer that, as with rice from old seedlings, the decrease in the tiller occurrence, the photosynthetic productivity and the assimilate remobilization efficiency may be important agronomic traits that are responsible for the reduced grain yield under MT.     

Effect of Temperature During Various Growth Stages on Grain Development and Yield of Pennisetum americanum

In controlled temperature glasshouses plant morphology, gramdevelopment and yield of pearl millet (Pennisetum americanum)were markedly affected by temperature during three stages ofplant growth: vegetative, stem elongation, and grain development.High temperature (to 33/28 °C day/night) during all threegrowth stages lowered grain yields by reducing basal tillering,numbers of grains per inflorescence, and single grain weight.Low temperature (21/16 °C) during the vegetative stage increasedbasal tillering and, as a result, total grain yield per plant.However, low temperature during the stem elongation stage reducedspikelet fertility and influorescence length, and thereby reducedthe potential main shoot grain yield. Low temperature duringgrain development increased the grain filling period and grainyield. The rate of grain filling did not vary over the rangeof 21/16 to 33/28 °C. Although plant morphology and grainyield were markedly affected by pre-anthesis thermal environment,grain development was not. At all temperatures ethanol-solublecarbohydrates stored in the stem were depleted during earlygrain development.     

稻纵卷叶螟经济阈值的研究

本文研究了稻纵卷叶螟(Cnaphalocrocis medinalis Guenee不同龄幼虫取食量,田间水稻不同品种接种不同密度幼虫后小区产量、空壳率、千粒重和损失率,不同剑叶受害面积与产量损失关系,天敌参数,以及施药防治的成本估计等。查明田间幼虫密度(x)与产量损失率(y)呈正相关,分品种建立了线性回归方程。综合上述因素求出平均济济闭值为百丛虫口45.67±6.02头,平均经济损失水平为百丛虫口60.0±7.92头;天敌参数为17.91±0.61头;平均防治行动阈值为百丛虫口63.57±6.63头;早稻第二代幼虫防治行动阈值为百丛虫口67.24±4.97头,晚稻第四代幼虫防治行动阈值为百丛虫口59.91±4.47头。     

Photosynthesis and growth of winter wheat in response to waterlogging at different growth stages

A study on photosynthetic and yield effects of waterlogging of winter wheat at four stages of growth was conducted in specially designed experimental tanks during the 2007–2008 and 2008–2009 seasons. Compared with the control, waterlogging treatments at tillering and jointing-booting stages reduced photosynthetic rate (P _N) and transpiration (E) significantly, it also decreased average leaf water-use efficiency (WUE, defined as the ratio of P _N to E) by 3.3% and 3.4% in both years. All parameters returned quickly to the control level after soil was drained. Damage to the photosynthetic apparatus during waterlogging resulted in a lower F_v/F_m ratio, especially at the first two stages. A strong reduction in root length, root mass, root/shoot ratio, total dry mass, and leaf area index were observed. The responses from vegetative plants at tillering and jointing-booting stages were greater than in generative plants at onset of flowering and at milky stages. The number of panicles per hectare at tillering stage and the spikelet per panicle at the stages of jointing-booting and at onset of flowering were also significantly reduced by waterlogging, giving 8.2–11.3% decrease of the grain yield relative to the control in both years. No significant difference in yield components and a grain yield was observed between the control and treatments applied at milky stages. These responses, modulated by the environmental conditions prevailing during and after waterlogging, included negative effects on the growth, photosynthetic apparatus, and the grain yield in winter wheat, but the effect was strongly stage-dependent.