不同氮素水平下双季稻株型与冠层内光截获特征研究

本文旨在阐明双季稻株型与冠层内光合有效辐射截获的时空分布特征。选用4个不同株型早、晚稻品种,设置4个不同施氮水平,系统观测其植株形态和冠层内光合有效辐射截获率(IPAR)的时空分布状况。结果表明,施氮水平对早、晚稻株高、穗长、叶长和叶基角均有显著影响,均表现为随施氮水平的增加而增大;早、晚稻孕穗期的分层叶面积指数(LAI)和向上累积LAI大于抽穗后12 d,分层LAI呈冠层中部大于上部和下部的分布特征,最大分层LAI出现在0.58相对高度处;冠层上中部分层LAI和向上累积LAI随施氮水平的增加而增大;向上累积LAI随相对高度呈S型曲线分布,可用Logistic方程定量描述(R~2 0.99);早、晚稻孕穗期的冠层IPAR大于抽穗后12 d,且随施氮水平的增加而增大,其日变化表现为正午较小,早晚较大;株型紧凑的早、晚稻品种,冠层IPAR低;冠层IPAR与向下累积LAI之间的关系可用方程IPAR=a (1-e~(-b×LAI))定量描述(R~2 0.88);冠层内IPAR的三维空间分布表现为冠层上中部水平面上IPAR较低,光斑变化大,冠层下部水平面上IPAR较高,光斑变化较平缓,同一冠层高度水平面上的IPAR呈不均匀分布。研究结果可为双季稻高产栽培及理想株型的优化设计提供支撑。     

三种水稻栽培模式对主要害虫种群发生动态的影响

轻简化和机械化是现代农业发展的趋势。本文于2 0 1 3 —2 0 1 5 年连续进行了常规人工栽插、机械直播、机械栽插等3种栽培模式对水稻主要害虫种群发生动态的影响研究,旨在为农业轻简、机械化模式的进一步推广提供依据。结果表明,3种栽培模式对稻飞虱、稻纵卷叶螟种群发生的影响差异不明显。比较3 种栽培模式下的水稻螟虫(二化螟为主, 大螟较少) 发生和为害可知,机械直播田的螟虫前期株为害率较高,且后期仍维持较高的为害率,明显高于人工栽插和机械插秧田(p<0.05)。分析原因,很可能是机械直播水稻暴露在大田的时间要稍长于栽插模式(机械插秧和人工栽插),有利于二化螟的提前入田为害。因此在推广机械直播时,应考虑调整播期,尽可能地避开或减少螟虫为害。     

基于响应面法优化糙米速食粥加工工艺

为综合利用糙米,开发糙米全谷物食品,以糙米为原料,在单因素的基础上,研究煮沸时间、浸泡时间以及蒸煮时间等工艺参数对糙米速食粥复水性、感官品质以及糊化度的影响。以感官评分为响应值,采用响应面法对煮沸—浸泡—蒸煮法生产糙米速食粥的生产工艺进行优化,得到糙米速食粥的最优工艺参数为：煮沸时间20.40 min、浸泡时间1.46 h、蒸煮时间54.22 min,在此条件下糙米速食粥的感官评分为78.98,糊化度为85.28%。经验证试验,得到的结果接近预测值。通过质构分析可知,煮沸—浸泡—蒸煮法得到的产品要优于非浸泡法,复水后不易老化回生。本研究生产的糙米速食粥香味浓郁,品质较好,为糙米食品的工业化生产提供有益参考。     

用遥感影像提取大别山区水稻种植面积——以Landsat 8为例

本研究选取安徽省安庆市大别山为研究区,包括太湖县、岳西县、宿松县和潜山县,选取2016年和2017年的6景Landsat 8卫星遥感影像,通过遥感影像提取水稻种植面积,分析大别山区的水稻种植面积分布,并对研究区域的水稻种植面积进行动态实时监测。用遥感解译方法分别提取了研究区内的晚稻种植面积,并利用随机点验证和Kappa系数验证结果精度。结果表明:2017年和2016年水稻种植面积的提取精度分别为93.44%、93.78%,Kappa系数分别为0.86、0.83,证明水稻提取效果精确;对比研究区域各个县内的2017年和2016年晚稻种植面积,发现安庆市大别山区太湖县、潜山县、岳西县的水稻种植面积变化率均在5%以内,属于正常变化,由于2016年宿松县遭遇了水灾,部分农田被淹没,故宿松县2017年水稻种植面积相比2016年增加了13.01%;对比传统的农作物种植面积统计方法,利用遥感的方法更省人力、物力、财力,并且能精确、快速地实现对农作物的实时动态监测。     

不同鸭品种在“稻鸭共作”系统中的行为学差异及对水稻产量的影响

为探究鸭在稻田间的运动规律,揭示不同鸭品种在田间的行为学差异以及对水稻产量的影响。本研究选取稻鸭共作试验田9块（766 m2/块）,按225只/hm2分别放入役用鸭（绿头野鸭♂?金定鸭♀）、金定鸭、白改鸭等3个鸭品种,通过视频监控系统,采用连续观察法记录鸭在每天的5:00—20:00时间段内在田间的游动、休息、采食等行为的发生时间和持续时间,连续观察5天。经观察发现,鸭田间活动高峰一般是在早上5:00—7:00,8:00—11:00以及15:00—18:00等时间段,役用鸭和金定鸭每天的活动时间分别为324.50 min(36.06%),315.75 min(35.08%),极显著高于白改鸭264.50 min (29.39%) (P＜0.01)。采用役用鸭、金定鸭、白改鸭进行稻鸭共作后,水稻产量分别比对照组提高了22.75%,20.14%和10.89%。水稻产量构成因素与鸭游动时间相关性分析发现,结实率、理论产量与游动时间呈极显著正相关(r=0.959,P＜0.01;r=0.858,P＜0.01),千粒重、实际产量与游动时间呈显著正相关(r=0.627,P＜0.05;r=0.767,P＜0.05)。研究结果表明：役用鸭对水稻的增产效果最好,且发现游动时间可作为影响稻鸭共作水稻产量的重要评价指标。该研究结果为稻鸭共作鸭品种的筛选以及稻鸭共作系统水稻产量的提升提供了重要的参考数据。     

不同秸秆还田方式对北方超级稻氮素吸收利用的影响

以北方超级稻沈农265为试验材料,研究了秸秆直接还田和秸秆热解成生物炭施入对水稻氮素吸收利用的影响。结果表明:与常规生产相比,秸秆直接还田主要提高了水稻生育中期的叶、茎含氮量,但同时降低了后期穗氮素累积量,氮素回收率、生理利用率和氮肥农学利用率分别下降5.28%、11.65%和16.19%,使产量有降低趋势;少量秸秆生物炭施入有助于提高生育中后期叶、茎含氮量并促进穗氮素累积量增加,氮素回收率和氮肥农学利用率分别增加6.02%和7.71%,有增加产量的潜力;大量秸秆生物炭施入降低了叶、茎和穗含氮量,氮素回收率负向效应强度高达34.31%,但氮素生理利用率增加45.62%,不利于产量的提高。秸秆直接还田和大量秸秆生物炭施入对水稻氮素吸收有一定抑制作用且不利于产量的提升,少量秸秆生物炭施入则能提高水稻氮素利用率并增加产量。     

气相色谱法测定稻谷中三环唑的不确定度分析

采用气相色谱法对稻谷中三环唑残留量的不确定度进行评估。根据JJF 1135—2005化学分析测量不确定度评定和JJF 1059.1—2012测量不确定度评定与表示中的相关规定,对测定过程中可能引入的不确定度进行分析和评估,建立了测定稻谷中三环唑残留量不确定度评定的数学模型,分析不确定度的主要来源,并将各分量进行合成。得出当稻谷中三环唑的量为0.262mg/kg时,其扩展不确定度为0.020 mg/kg (k=2)。     

Low soil temperature reducing the yield of drip irrigated rice in arid area by influencing anther development and pollination

Drip irrigation can produce high rice yields with significant water savings; therefore, it is widely used in arid area water-scarce northern China. However, high-frequency irrigation of drip irrigation with low temperature well water leads to low root zone temperature and significantly reduce the rice yield compared to normal temperature water irrigated rice, for example, reservoir water. The main purpose of this paper is to investigate the effects of low soil temperature on the yield reduction of drip irrigated rice in the spike differentiation stage. The experiment set the soil temperatures at 18°C, 24°C and 30°C under two irrigation methods(flood and drip irrigation), respectively. The results showed that, at the 30°C soil temperature, drip irrigation increased total root length by 53% but reduced root water conductivity by 9% compared with flood irrigation. Drip irrigation also increased leaf abscisic acid and proline concentrations by 13% and 5%, respectively. These results indicated that drip irrigated rice was under mild water stress. In the 18°C soil temperature, drip irrigation reduced hydraulic conductivity by 58%, leaf water potential by 40% and leaf net photosynthesis by 25% compared with flood irrigation. The starch concentration in male gametes was also 30% less in the drip irrigation treatment than in the flood irrigation treatment at soil temperature 18°C. Therefore, the main reason for the yield reduction of drip irrigated rice was that the low temperature aggravates the physiological drought of rice and leads to the decrease of starch content in male gametes and low pollination fertilization rate. Low temperature aggravates physiological water deficit in drip irrigated rice and leads to lower starch content in male gametes and low pollination fertilization rate, which is the main reason for the reduced yield of drip irrigated rice. Overall, the results indicated that the low soil temperatures aggravated the water stress that rice was under in the drip irrigated environment, causing declines both in the starch content of male gametes and in pollination rate. Low temperature will ultimately affect the rice yield under drip irrigation.     

Performance of Bangladesh indigenous rice in a weed infested field and separation of allelopathy from resource competition

This study aimed to identify the potential allelopathic indigenous rice (Oryza sativa L. ssp. indica) varieties from Bangladesh using a performance study in a weed‐infested field and to assess the extent of allelopathic interference relative to resource competition in a glasshouse experiment. Six varieties – namely, “Boterswar,” “Goria,” “Biron” and “Kartiksail” as the most allelopathic, “Hashikolmi” as weakly allelopathic and “Holoi” as nonallelopathic – were raised following a nonweed control method. The infestation levels of weed species were calculated using Simpson's Diversity Index (SDI), which ranged from 0.2 to 0.56. However, a significant correlation coefficient (0.87, P < 0.001) was obtained from these field data compared with the root inhibition percentage from the laboratory bioassay, and the “Boterswar” variety was the most allelopathic. The interactions between the allelopathic variety “Boterswar,” weakly allelopathic variety “Hashikolmi” and Echinochloa oryzicola via a target (rice)‐adjacent (E. oryzicola) cogrowth culture were determined in a hydroponic arrangement. The relative competitive intensity (RCI) and the relative neighbor effect (RNE) values showed that the crop–weed interaction was facilitation for “Boterswar” and competition for “Hashikolmi” and E. oryzicola in rice/E. oryzicola cogrowth cultures. The allelopathic effects of “Boterswar” were much higher than the resource competition in rice/E. oryzicola cogrowth cultures. The converse was observed for “Hashikolmi.” Moreover, the mineral content of E. oryzicola was severely affected by “Boterswar”/E. oryzicola cogrowth cultures’ exudate solution. Therefore, the allelopathic potential of “Boterswar” variety might be useful for developing the weed‐suppressing capacity of rice, which will likely have a significant influence on paddy weed control.