基质水势对切花百合植株干物质分配影响的预测模型

干物质分配与转移是观赏植物外观品质形成的基础,受水分影响极大.本文以切花百合品种‘索邦’为试验材料,于2009年3月至2010年1月在南京的连栋温室内开展了不同定植期和不同水分处理的栽培试验,定量分析了不同定植期和不同水分处理条件下切花百合干物质分配和转移的变化规律,以及基质水势对百合地上部和地下部各器官(花、茎、叶、鳞茎、茎生根)干物质分配指数的动态影响,并确定了切花百合正常生长的临界基质水势,最终建立了基质水势对切花百合植株干物质分配影响的动态预测模型.结果表明:本文所建模型对百合各器官(花、茎、叶、鳞茎、茎生根)干质量的预测效果较好,模型对花、茎、叶、鳞茎、茎生根干质量的预测值与实测值之间的决定系数分别为0.96、0.95、0.86、0.95、0.85,预测相对标准误分别为19.2％、12.4％、19.4％、12.2％、31.7％.-15 kPa可作为切花百合‘索邦’水分管理的临界水势.     

氮素对长江中下游温室切花百合外观品质影响的模拟研究

氮素是影响花卉生长与外观品质的重要营养元素。定量研究氮素对温室切花百合外观品质的影响,可为切花百合氮素管理提供决策支持。以百合‘索邦’和‘西伯利亚’为材料,根据不同定植期、生长中后期不同速效氮素水平处理试验,以冠层累积吸收辐热积(PTI)为发育尺度,以现蕾期叶片累积氮含量为植株氮素特征指标,定量分析氮素对切花百合外观品质指标(叶面积指数、株高、出叶数、第1花蕾长度与第1花蕾直径)和出花率的动态影响。在此基础上,建立氮素对切花百合外观品质影响的模拟模型,并用独立的试验数据对模型进行检验。结果表明,模型对叶面积指数、株高、出叶数、第1花蕾长度、第1花蕾直径、一级花、二级花、三级花和四级花的预测效果较好,预测值与实测值之间基于1∶1线的决定系数(r2)分别为0.92、0.85、0.86、0.91、0.88、0.88、0.88、0.91和0.91,相对回归估计标准误(rRMSE)分别为0.09、0.10、0.14、0.13、0.12、0.18、0.15、0.18和0.21。研究建立的模型为长江中下游地区温室切花百合生产中氮素的优化管理提供了模型工具,也为露地栽培切花百合生产中氮素的优化管理提供了参考。     

水分和光照对厚皮甜瓜苗期植株生理生态特性的影响

以厚皮甜瓜‘西博洛托’为试材,研究了温室内育苗基质含水量和光照强度对厚皮甜瓜苗期植株生长发育和生理生态特性的影响.结果表明:不同基质含水量和光照强度对厚皮甜瓜苗期植株生长发育影响显著,随基质含水量的降低,苗期植株叶绿素a、叶绿素b和总叶绿素含量升高,叶片相对含水量和比叶面积下降,基质含水量为60%～80%时,幼苗净光合速率最高;随着光照强度的减弱,幼苗的叶绿素a、叶绿素b、总叶绿素含量以及叶片相对含水量、比叶面积和胞间CO2浓度升高,叶绿素a/b和净光合速率下降.在不同处理中,以80%基质含水量 100%温室光照处理的幼苗生长最健壮,壮苗指数、净光合速率等指标最高.     

太阳辐射减弱条件下冬小麦光合作用和干物质生产的模拟

为了深入了解太阳辐射减弱对冬小麦光合作用及产量的影响,在大田试验条件下设置了自然太阳总辐射(CK)、60%CK、40%CK、20%CK和15%CK5个太阳辐射处理组,同时测定了太阳辐射变化对不同生育期冬小麦光合作用及干物质生产的影响。在此基础上,对单叶光合速率、生理年龄、温度、CO2和叶面积指数等因子的影响函数进行了修订,建立了反映太阳辐射变化对冬小麦光合作用和干物质生产影响的作物生长模型。结果表明:该模型能较好地反映太阳辐射减弱条件下冬小麦光合速率和干物质生产的变化,其中光合速率和总干物质质量的平均相对误差分别为4.1%和8.3%,在水肥充足条件下,与对照CK相比,60%～15%CK处理的冬小麦光合速率和总干物质质量分别下降了23%～48%和35%～57%。     

定植密度对日光温室甜椒干物质生产与分配影响的模拟研究

2007年10月—2009年5月,在中国山东省寿光市日光温室内设计不同定植密度和不同定植日期的甜椒栽培试验,系统收集温室环境数据和作物生长数据,分析定植密度对日光温室甜椒干物质生产与分配的影响。结果表明,定植密度在2.0—6.7株·m-2范围内,不同定植密度处理的甜椒叶面积指数与定植后天数的关系较好地符合logistic模型,收获时最大叶面积指数与定植密度呈线性正相关。研究发现,不同密度处理的单位面积甜椒生物量与冠层累计截获的光合有效辐射日积分呈线性正相关,单位面积植株干物质增长率和叶片的干物质分配指数随定植密度增加而增加,果实的干物质分配指数随密度增加而减少,茎的干物质分配指数受密度影响不显著。在此基础上,首先构建甜椒叶面积指数模型和冠层光截获模型,然后建立以冠层截获的PAR日积分为尺度的温室甜椒干物质生产与分配模型,并利用独立试验数据对模型进行检验,表明定植密度为2.0、4.0、6.7株·m-2的总干重、叶干重、茎干重、果实干重和产量的模拟值与实测值间基于1:1线的决定系数(R2)分别为0.946、0.891、0.945、0.923和0.867,回归估计标准误差(RMSE)分别为51.97g·m-2、3.53g·株-1、4.72g·株-1、16.4g·株-1和910.8g·m-2,说明所建模型的模拟值与实测值有较好符合度,能够较准确地模拟日光温室甜椒的干物质生产与分配,模型参数少,实用性强,可以为日光温室甜椒产量预测提供决策支持。     

滇中地区设施栽培下切花月季的光合特性

为了探讨切花月季在滇中地区的高产优质栽培措施,对黑魔术、沃蒂、帕里欧3个月季品种在设施条件下的光合特性及叶绿素含量进行了研究.结果表明,无论在什么季节和生育期,3个品种的叶片光合作用日变化皆表现出明显的光合"午休"现象,最大光合速率出现在上午10:00～11:00.植株中部叶片的净光合速率最高,其次是上位叶,下位叶最低,而不同位置叶片的叶绿素含量变化趋势是中位叶＞下位叶＞上位叶.在滇中地区,月季中午光合速率的降低主要与温室中高温有关,而不同叶位光合速率的变化与光环境、叶绿素含量及叶龄有关.根据研究结果,讨论了滇中地区设施条件下切花月季的一些栽培措施.     

红光与远红光比值对温室切花菊形态指标、叶面积及干物质分配的影响

以切花菊品种‘神马’(Chrysanthemum morifolium Ramat ‘Jinba’)为试材,于2010-2011年设计不同红光(R: (660 ±10) nm)与远红光(FR: (730±10)nm)比值(R/FR分别为0.5、2.5、4.5、6.5)的LED灯照射处理,研究不同R/FR值对温室切花菊形态指标、叶面积形成及干物质分配的影响。结果显示R/FR=2.5处理的植株叶片数、株高、茎粗、花径、叶面积及总干重均为各个处理中最高,R/FR=0.5处理的节间最长。所有R/FR处理的单株地上干物质重量与光质处理天数呈指数-线性模型。随处理天数的增加不同R/FR值处理菊花植株地上部分及地下部分干物质分配指数差异均不显著,叶片和花的干物质分配指数随处理天数的增加分别呈降低和升高的趋势,茎干物质分配指数则呈现先升高后降低的趋势,R/FR=2.5处理下,菊花叶片干物质分配指数和花干物质分配指数最高,而茎干物质分配指数却为最低;R/FR=6.5处理茎干物质分配指数最高,叶片干物质分配指数最低;0.5处理花朵干物质分配指数最低,说明远红光比例增加能够促进干物质向茎中分配,R/FR=2.5处理利于干物质向花朵中分配。     

温室甜椒叶面积指数形成模拟模型

叶面积指数是光合作用驱动的作物生长模型以及冠层蒸腾模型所需的重要作物参数,温度和辐射是影响叶片生长的重要环境因子.通过不同定植期、不同品种、不同地点的试 验,定量分析了温室甜椒出叶数、叶片长度和叶面积指数与温度和辐射的关系,构建了温室 甜椒叶面积模型,并利用独立的试验资料对模型进行了检验.结果表明：甜椒出叶数与出苗 后累积辐热积呈指数函数关系;叶片长度与出叶后累积辐热积呈负指数函数关系;甜椒出叶 数、叶片长度和叶面积指数的模拟结果与实测值之间的决定系数R²分别为0.94、0.89、0.93,其回归估计标准误RMSE分别为3.4、2.15 cm、0.15.该模型能够利用气温、辐射、 种植密度和出苗日期准确地预测温室甜椒叶面积指数动态,且模型参数少、实用性强,可以为温室甜椒生长模型和蒸腾模型提供必需的叶面积指数动态信息.     

夏玉米三叶期持续干旱下不同叶位叶片含水量变化及其与光合作用的关系

植物干物质的累积依赖于群体光合速率,而群体光合速率又与单叶的光合能力密切有关。叶片光合作用与其含水量密切相关,目前关于不同叶位叶片含水量对持续干旱的响应及其与光合作用的关系还未见报道。以华北夏玉米郑单958为材料,设置6个不同灌水处理,模拟不同灌溉量下持续干旱对夏玉米不同叶位叶片生理特性的影响,分析夏玉米顶部开始的第一、三、五叶位叶片的水分变化及其与净光合速率的关系。结果表明:夏玉米不同叶位的叶片最大含水量不同,且随干旱进程的推进叶片含水量的变化速率也不同,第一叶的叶片含水量下降速率高于第三、第五叶,第一叶的最大含水量高于第三、五叶,且可进行光合产物积累的叶片含水量下限随叶位的增加而增大。同时,第一叶的叶片含水量与土壤水分呈显著相关,且与净光合速率的相关性也非常强。第一叶可进行光合产物积累的叶片水分下限(净光合速率为零时的叶片含水量)最小,表明其耐旱性最强,对干旱具有指导意义。研究结果可为提高冠层光合作用模拟的准确性及夏玉米干旱发生发展的监测预警提供参考。     

夏玉米三叶期持续干旱下不同叶位叶片含水量变化及其与光合作用的关系分析

植物干物质的累积依赖于群体光合速率,而群体光合速率又与单叶的光合能力密切有关。叶片光合作用与其含水量密切相关,目前关于不同叶位叶片含水量对持续干旱的响应及其与光合作用的关系还未见报道。以华北夏玉米郑单958为材料,设置6个不同灌水处理,模拟不同灌溉量下持续干旱对夏玉米不同叶位叶片生理特性的影响,分析夏玉米顶部开始的第一、三、五叶位叶片的水分变化及其与净光合速率的关系。结果表明:夏玉米不同叶位的叶片最大含水量不同,且随干旱进程的推进叶片含水量的变化速率也不同,第一叶的叶片含水量下降速率高于第三、第五叶,第一叶的最大含水量高于第三、五叶,且可进行光合产物积累的叶片含水量下限随叶位的增加而增大。同时,第一叶的叶片含水量与土壤水分呈显著相关,且与净光合速率的相关性也非常强。第一叶可进行光合产物积累的叶片水分下限(净光合速率为零时的叶片含水量)最小,表明其耐旱性最强,对干旱具有指导意义。研究结果可为提高冠层光合作用模拟的准确性及夏玉米干旱发生发展的监测预警提供参考。     

Hydraulic conductance as well as nitrogen accumulation plays a role in the higher rate of leaf photosynthesis of the most productive variety of rice in Japan

An indica variety Takanari is known as one of the most productive rice varieties in Japan and consistently produces 20-30% heavier dry matter during ripening than Japanese commercial varieties in the field. The higher rate of photosynthesis of individual leaves during ripening has been recognized in Takanari. By using pot-grown plants under conditions of minimal mutual shading, it was confirmed that the higher rate of leaf photosynthesis is responsible for the higher dry matter production after heading in Takanari as compared with a japonica variety, Koshihikari. The rate of leaf photosynthesis and shoot dry weight became larger in Takanari after the panicle formation and heading stages, respectively, than in Koshihikari. Roots grew rapidly in the panicle formation stage until heading in Takanari compared with Koshihikari. The higher rate of leaf photosynthesis in Takanari resulted not only from the higher content of leaf nitrogen, which was caused by its elevated capacity for nitrogen accumulation, but also from higher stomatal conductance. When measured under light-saturated conditions, stomatal conductance was already decreased due to the reduction in leaf water potential in Koshihikari even under conditions of a relatively small difference in leaf-air vapour pressure difference. In contrast, the higher stomatal conductance was supported by the maintenance of higher leaf water potential through the higher hydraulic conductance in Takanari with the larger area of root surface. However, no increase in root hydraulic conductivity was expected in Takanari. The larger root surface area of Takanari might be a target trait in future rice breeding for increasing dry matter production.     

作物生长模型WOFOST在华北平原的适用性研究

 简要介绍了荷兰瓦赫宁根大学开发的WOFSOT模型,为了评价其在华北平原的适用性,2000～2001年在中国科学院禹城综合试验站进行了水分处理实验。水分池分为8个处理,分别是： ≥40%、≥50%、≥60%、≥70%、≥80%田间持水量及返青-拔节受旱、抽穗-灌浆受旱、灌浆-成熟受旱,每个处理重复1次,共16个实验小区。其中2001年的实验数据用于参数校正,到一套模型的参数值,2000年的实验数据用于模型的验证。主要结论如下：1) WOFOST模型适于描述作物的光合作物过程,对潜在生长的模拟较好,用于华北平原的作物生长与水分利用的研究是适宜的;2) 华北平原的光温生产潜力为8100kg·hm-2左右,目前冬小麦的产量仅相当于潜在产量的65%;3) WOFOST模型在一些细节问题上考虑较粗,比较适合于大面积、区域范围内的模拟;4) WOFOST存在不少需要改进的地方,如干物质分配系数考虑可能过于简单、未计算冬小麦发育后期茎叶干物质向籽粒的转移等。     

Growth Response of a Chrysanthemum Crop to the Environment. II. A Mathematical Analysis Relating Photosynthesis and Growth

Vegetative crops of chrysanthemum were grown for 5 weeks inthree replicate daylit assimilation chambers. Weekly harvestswere made from each crop for growth analysis, and on seven occasionsduring the 5-week period continuous measurements of the netCO₂ exchange rate of each crop were made over a 24 h period.A semi-empirical model for canopy photosynthesis was fittedto these data. The photosynthesis model was then incorporatedinto a simple, dynamic growth model. Using fitted values ofthe canopy photosynthesis parameters, the daily total radiationintegrals, and the experimentally observed relationship betweenthe leaf area index and crop dry matter per unit ground area,the crop growth model was used to simulate growth over the 5-weekperiod. The predicted and measured crop dry weights were inclose agreement over the whole period.     

Photosynthesis,photosynthetic enzymes and leaf area development in relation to hybrid vigour in Sorghum vulgare L.

Heterotic hybrids of sorghum produced more dry matter than their respective parents. Therefore, an analysis of leaf are development, rate of photosynthesis and activities of RuBP carboxylase and PEP carboxylase was made to determine whether the superior dry matter production in the hybrids could be attributed to any of these characteristics. Heterosis in leaf area was maintained at all stages in plant growth. Heterosis in photosynthesis was observed only during grain development in certain hybrids. At all other stages, the photosynthesis rate in hybrids were either intermediate or similar to one of the parents. No heterotic effect was observed in enzyme activity at any stage of growth. It is suggested that a multiplicative interaction between the heterotic leaf area and photosynthesis rate could possibly explain heterosis in dry matter production in heterotic hybrids.     

The effects of irrigation regimes on the water use,dry matter production and physiological responses of paddy rice

In most cases, rice production is associated with flooding irrigation and the efficiency of irrigated water use (WUEi) is generally lower for production of rice than for other crops. We have examined the effects of various irrigation regimes on water consumption in a well-puddled paddy field, as well as on dry matter production, grain yield and physiological responses of the plants. Four sets of conditions were studied, with two replications, in the well-puddled paddy field: Continuous flooding irrigation treatment (CSF); three intermittent irrigation treatments, designated II-0, II-1 and II-2, in which plants were re-irrigated when the water potential of the soil fell below 0, –10, and –20 kPa at a depth of 5 cm, respectively. Water consumption was lower during II-0 than during CSF because the percolation rate was reduced by the reduction in the hydraulic head of the ponded water. Intermittent irrigation led to the repeated shrinking and swelling of soil during II-1 and II-2 and, therefore, soil cracks developed rapidly. Since they became the major routes of water percolation, these soil cracks increased water consumption during II-1 and II-2 above that during CSF and II-0. There were no significant differences in dry matter production and grain yield between CSF and II-0, but both were significantly greater than in the case of II-1 and II-2. Therefore, WUEi increased in the following order: II-0, CSF, II-2, II-1, although the difference was very small between II-1 and II-2. A lower crop growth rate (CGR) resulted from a decrease in the net assimilation rate (NAR) during II-1 and II-2, and there was also a reduction in the leaf area index (LAI) during II-2. Early senescence with ripening and water stress around midday decreased the rate of photosynthesis in leaves, causing the lower NAR. These physiological responses of the plants were responsible for the reduction on the dry matter production and grain yield in the intermittent irrigation. This revised version was published online in June 2006 with corrections to the Cover Date.     

水分亏缺对冬小麦净光合速率影响程度研究

水分亏缺对冬小麦净光合速率影响程度研究王慧（西北大学城市与资源学系,西安７１００６９）ＥｆｆｅｃｔｏｆＷａｔｅｒＤｅｆｉｃｉｔｏｎＮｅｔＰｈｏｔｏｓｙｎｔｈｅｓｉｓＲａｔｅｏｆＷｉｎｔｅｒＷｈｅａｔ．ＷａｎｇＨｕｉ（ＤｅｐａｔｍｅｎｔｏｆＵｒｂａｎ...     

Effect of arbuscular mycorrhizal fungi on the acclimatization of micropropagated banana plantlets

 The effect of arbuscular mycorrhizal fungi (AMF) on micropropagated banana plantlets was evaluated during the acclimatization period. Plants were inoculated with Acaulospora scrobiculata, Glomus clarum or Glomus etunicatum. After cultivation in a greenhouse for 3 months, height, leaf area, fresh weight and dry matter of root and shoots, level of AMF colonization, nutrient level, photosynthesis and transpiration rate, water potential and stomatal conductance were measured. The number of AMF spores produced in each treatment was also determined. Plantlets inoculated with AMF had greater height, leaf area and fresh weight of shoots and roots, as well as higher rates of photosynthesis and transpiration than controls. Plants inoculated with Glomus were superior in most of the evaluated parameters. Accepted: 24 May 1999     

新疆超高产棉花冠层光分布特征及其与群体光合生产的关系

以新疆超高产棉田(皮棉产量在4000 kg·hm^-2以上)为研究对象,分析不同生育时期棉花冠层光分布、群体光合速率和干物质积累量的变化,研究不同产量水平棉田冠层的光环境变化特征及其与群体光合生产的关系.结果表明： 超高产田盛花期到盛铃后期冠层上、中、下层光吸收率的比例为2∶2∶1,呈均匀分布,群体散射辐射和直射辐射透过系数分别为0.20～0.55和0.22～0.56,处于较适宜范围,中、下层叶片受光良好,冠层各层次叶片群体光合速率差异较小.与高产(3500 kg·hm^-2)和一般高产(3000 kg·hm^-2)棉田相比,超高产田在盛铃前期具有较高的叶面积指数和群体光合速率峰值,在初絮期和盛絮期的叶面积指数下降缓慢,群体光合速率峰值仍保持较高值,非叶绿色器官对产量形成的光合贡献增大,群体干物质积累量较高.在栽培过程中,调节冠层结构,使垂直方向上光辐射和群体光合能力分布均匀是确保棉花高效利用光能、实现超高产的重要途径.