籽粒蛋白质含量不同的小麦品种间光合速率的比较

用15个蛋白质含量和产量均有较大差异的小麦品种为试材,分别测定了以CO2同化速率和光合放氧速率为指标的光合作用状况,相关分析表明,苗期以CO2同化速率表示的光合速率与籽粒蛋白质含量之间呈极显著负相关关系（r=-0.75),与籽粒产量则达彬显著正相关关系（r=0.849）,以光合放氧速率表示的光合速率与籽粒蛋白质含量之间呈显著正相关（r=0.515),而与产量无相关关系（r=0.415)（图1）,用CO2同化速率和光合放氧速率对品种所作的聚类分析表明,15个品种被明显分为两个大类,一是光合放氧速率较高而CO2同化速率较低,另一类则相反（图2）,蛋白质含量高的品种其CO2同化速率较蛋白质含量低的品种低,但光合放氧速率却不低,甚至高于蛋白质含量低的品种,籽粒形成期间,蛋白质含量高的品种光合CO2同化速率和光合放氧速率下降幅度相对较小,后期衰老较慢,可能与其体内较高的氮素含量和较强的硝酸还原酶活性有关。     

甘蓝型油菜生殖生长期叶片和角果光合与产量关系的研究

以11个不同适生区甘蓝型油菜品种为材料,研究了油菜生殖生长期植株叶片和角果的光合气体交换参数、光合色素含量、光合关键酶蛋白含量、主要农艺性状及其与产量的关系,探讨影响叶片(角果)光合效率及单株籽粒产量的主要因子,为油菜高产高光效品种的系统评价提供理论依据。结果显示:(1)油菜植株叶片与角果的净光合速率间相关性较小,但叶片净光合速率远大于角果。(2)叶片净光合速率与其叶绿素a+b含量及气孔导度呈不显著的正相关关系(相关系数较大),与其光合关键酶PEPC、RuBisCO蛋白含量相关系数较小或呈不显著负相关;角果(皮)净光合速率与其叶绿素a、b含量、类胡萝卜素含量及气孔导度相关性较强;光合色素含量是影响叶片、角果净光合速率的第一主因子。(3)单株叶面积、角果数及角果表面积与籽粒产量显著正相关关系,是影响籽粒产量的第一主因子;叶片净光合速率和角粒数是影响籽粒产量的第二主因子;单株生物学产量与叶面积呈显著正相关关系,角果表面积、叶面积及叶片净光合速率是影响生物学产量的第一、二主要因子。研究表明,油菜高产高光效品种的综合评价指标应首选单株角果数、叶片面积,其次选择叶片净光合速率、叶片和角果皮的叶绿素含量以及角粒数。     

高原粳稻光合特性的初步研究

在较低光照强度下,粳稻光合速率随品种原产地海拔升高而降低,高光照强度下,则随海拔升高而增加。高原粳稻光饱和点和光合潜力较大,但呼吸速率和光补偿点也高。各品种温度——光合速率符合P=axe~(ba)的非线性方程。品种原产地海拔越高,光合最适温降低。     

不同粒型小麦品种内源GA3和ABA含量变化及其与源库的关系

小麦大粒品种籽粒和旗叶中的GA3 含量高于小粒品种 ,而ABA含量低于小粒品种 ,其变化均为单峰曲线 ;但大粒品种籽粒和旗叶中的GA3 的峰值高于小粒品种 ,而ABA的峰值均低于小粒品种 ,而且大粒品种籽粒中ABA出现峰值的时间比小粒品种晚。大粒品种旗叶中GA3 /ABA与光合速率呈显著正相关 (r =0 .884 0 ) ,籽粒中GA3 /ABA与籽粒灌浆速率呈显著正相关 (r =0 .90 70 ) ,籽粒与旗叶中的GA3 /ABA相关不显著 ,而小粒品种籽粒与旗叶中的GA3 /ABA相关达极显著水平 (r =0 .95 98 )     

不同盐度下水华束丝藻对CO2浓度倍增的生理响应

本文研究了在盐度分别为2‰和4‰的条件下,CO2浓度倍增对水华束丝藻(Aphanizomenon flos-aquae)生长速率、光合活性及光合色素比例与丙二醛含量的影响。结果表明随着盐度的增加水华束丝藻的生长速率和光合活性受到显著抑制,叶绿素a与藻蓝素比例大幅降低,丙二醛含量明显提高。在实验盐度范围内,CO2浓度倍增显著促进水华束丝藻的生长速率和最大光合电子传递速率(ETRmax)与色素比例,而且盐度越高促进效果越明显。此外CO2浓度倍增能显著降低丙二醛(MDA)含量。从而减少膜脂过氧化,缓解盐度胁迫。     

牛膝不同密度群体光合速率与干物质积累和品质的关系

在大田条件下,探讨不同种植密度(A,500 000;B,330 000;C,250 000;D 200 000株/hm2)与牛膝的群体光合速率、干物质积累、产量及多糖含量之间的关系.结果表明:群体光合速率B处理较高,各群体日变化在开花期均呈双峰型,籽盛期均为单峰型;单株根干重和单位面积根产量的拟合均呈Logistic曲线变化;不同密度处理单株根干重增加速率为D>C>B>A,而单位面积根产量增加速率为B>C>D>A;密度与产量呈负相关,与多糖呈正相关;各处理群体光合速率与产量呈显著正相关,与多糖含量在开花和籽末期呈负相关.综合分析显示,330 000株/hm2为牛膝最佳种植密度;密度对牛膝产量和多糖含量影响较大,适当地提高籽粒期群体光合速率有利于提高牛膝产量和质量.     

除草剂对冬小麦光合特性、籽粒产量及品质的调控效应

通过田间试验研究了4种除草剂(2,4-D丁酯、‘巨星’、‘世玛’和‘骠马’)对2个小麦品种(‘临优145’和‘临汾138’)光合特性、籽粒产量和品质的影响。结果表明:2,4-D丁酯使小麦灌浆期间旗叶的叶绿素相对含量(SPAD值)和净光合速率(Pn)一直较低,千粒重和籽粒产量显著低于对照;‘巨星’使灌浆前期的SPAD值和Pn较高而中后期快速下降,灌浆持续时间缩短,产量与对照相近;‘世玛’使灌浆前中期SPAD值和Pn较低但后期下降缓慢,灌浆持续时间延长,千粒重和籽粒产量显著高于对照和其它处理;‘骠马’对光合特性和产量影响较小。2,4-D丁酯和‘骠马’使籽粒的蛋白质含量、湿面筋含量、沉降值、吸水率、评价值显著或极显著提高,稳定时间延长,而形成时间与对照相近;‘巨星’和‘世玛’处理的品质指标大多低于或接近对照。研究发现,除草剂通过调控小麦旗叶光合特性和灌浆进程来影响其千粒重和籽粒产量,且除草剂和品种间存在差异;2,4-D丁酯虽能明显改善小麦品质但却显著降低籽粒产量,‘骠马’使小麦品质特性改善的同时也使籽粒产量有所提高,‘世玛’虽能显著提高籽粒产量却使品质特性变差。     

小麦不同品种光合速率和14 C同化物分配对源库比改变的影响

 选用千粒重大小不同的小麦品种,研究了去除顶端两个小穗对两类品种(大粒品种和小粒品种)穗部性状、籽粒平均灌浆速率、单穗平均增重速率、植株光合速率及14C同化物运输分配的影响。试验结果表明,去除顶端两个小穗后,两类品种的籽粒平均灌浆速率和单穗平均增重速率(分别表征籽粒库容活性和穗粒库容活性)相应提高,穗粒重表现为补偿性增长。两类品种比较,小粒品种的增长幅度大于大粒品种。穗粒库容活性增强使得小粒品种灌浆中后期的植株光合速率提高,使两类品种分配到籽粒中的14C同化物比例增加。从而表明,无论是植株光合速率还是同化物的运转分配皆受库容活性的调控,调控方式和幅度因品种类型而不同。     

玉米花生间作对玉米光合特性及产量形成的影响

为了进一步揭示玉米花生间作体系中玉米间作产量优势的光合机理,于2010—2011年在河南科技大学试验农场研究了间作玉米功能叶的光-光响应曲线和光-CO2响应曲线特点、荧光参数、叶绿素含量与构成、干物质积累及灌浆速率。结果表明:间作提高了玉米功能叶片的叶绿素含量,改变了叶绿素构成,显著提高了净光合速率,延缓衰老;间作提高了玉米光补偿点、光饱和点、光饱和时的最大净光合速率、表观量子效率和羧化效率,显著降低了CO2补偿点;PSⅡ的实际光化学效率、PSⅡ的最大光化学效率和光化学猝灭系数变化不明显。间作明显提高玉米生育后期单株干物质,主要在于促进了籽粒的生长,显著提高玉米产量,偏土地当量(PLER-M)高于其所占面积比例的106.6%—120.3%,表现出明显的间作产量优势。这说明间作玉米产量间作优势主要来源于其生育后期净光合速率的提高,促进光合物质向籽粒的分配,净光合速率的提高是通过羧化效率和表观量子效率的提高,增强CO2的固定能力实现的,而非是光能传递、转化效率的提高。     

高效液相色谱(HPLC)技术鉴定中国南方大豆品种异黄酮主要组分

采用高效液相色谱(HPLC)技术检测中国南方六个省份的249份大豆品种异黄酮主要组分含量.结果显示大豆籽粒中可检测出6种主要的异黄酮组分,分别为大豆甙(Daidzin)、甲氧基黄豆甙原(Glycitin)、染料木甙(Genistin)、丙二酰基大豆甙(Malonyldaidzin)、丙二酰基黄豆甙原(Malonylglycitin)和丙二酰基染料木甙(Malonylgenistin).各组分中以丙二酰基(Malonyl)异黄酮组分含量最高(61.2%),且各组分间相关极显著.大豆品种间异黄酮含量变异较大,变异系数达49.6%.来自江苏省的品种海门红黄豆乙异黄酮含量最高(4932.3μg/g),品种宝应等西风含量最低(367.1μg/g).不同省份间异黄酮含量差异极显著,来自浙江省的大豆品种平均含量最高(2717.2μg/g),来自安徽省的平均含量最低(1181.8μg/g).异黄酮含量与生育期呈极显著正相关(r=0.319* * *),与百粒重呈显著正相关(r=0.132*),而与脂肪含量(r=-0.45* * *)和蛋白质含量(r=-0.136)呈负相关.     

Carbohydrate metabolism enzymes in CO2-enriched developing rice grains of cultivars varying in grain size

The increased supply of photosynthate from maternal tissue is known to promote grain growth in several crop species. However, the effect of increasing photosynthate supply on grain growth receives little attention in rice. This study was aimed at evaluating the effect of increasing photosynthate supply through CO₂ enrichment (650 μl I_-1) on grain growth in three rice cultivars differing in grain size. CO₂ enrichment was applied to the pot-grown plants between anthesis and final harvest. The results indicated that high CO₂ treatment enhanced the CO₂ exchange rate of leaf tissue, and subsequently increased the sucrose level of peduncle exudate, but it did not promote starch accumulation in the developing grains. This phenomenon was linked to the poor CO₂ responses for the grain activities of sucrose synthase, UDP-glucose pyrophosphorylase. ADP-glucose pyrophosphorylase, and starch synthases involved in the conversion of sucrose to starch. Significant cultivar differences also existed for the activities of sucrose to starch conversion enzymes with larger grain size cultivars tending to have higher enzymes activities (expressed on a grain basis), resulting in a greater carbohydrate accumulation.     

Leaf photosynthetic rate is correlated with biomass and grain production in grain sorghum lines

Significant genetic variation in leaf photosynthetic rate has been reported in grain sorghum [Sorghum biocolor (L.) Moench]. The relationships between leaf photosynthetic rates and total biomass production and grain yield remain to be established and formed the purpose of this experiment. Twenty two grain sorghum parent lines were tested in the field during the 1988 growing season under well-watered and water-limited conditions. Net carbon assimilation rates were measured at mid-day during the 30 day period from panicle initiation to head exertion on upper-most fully expanded leaves using a portable photosynthesis system (LI-6200). Total biomass and grain production were determined at physiological maturity. The lines exhibited significant genetic variation in leaf photosynthetic rate, total biomass production and grain yield. Significant positive correlations existed between leaf photosynthesis and total biomass and grain production under both well-watered and water-limited conditions. The results suggest that leaf photosynthetic rate measured prior to flowering is a good indicator of productivity in grain sorghum.     

GA3对杂交稻“粒间顶端优势”及灌浆期间籽粒内源IAA的影响

以杂交稻协优 413为材料 ,研究了外源GA3 对籽粒内源IAA影响。观察到开花后其优势粒比劣势粒灌浆启动早 ,优势粒灌浆势下降后 ,劣势粒开始灌浆 ,且优势粒灌浆势峰值比劣势粒高 ,这种优劣势粒的灌浆异步现象是一种“粒间顶端优势” ,即劣势粒的灌浆启动迟 ,与优势粒对劣势粒的抑制有关。籽粒灌浆期间优势粒内源IAA含量增加早于劣势粒 ,优势粒内源IAA峰值也高于劣势粒 ;优劣势粒灌浆势变化趋势与优劣势粒内源IAA含量水平的变化趋势相似 ,“粒间顶端优势”似为内源IAA所调节。于初穗时喷施外源GA3,“放大”了单穗中优劣势粒灌浆异步效应 ,优势粒灌浆势更强 ,劣势粒更弱 ,即外源GA3 加强“粒间顶端优势”现象。在试验中还看到初穗期喷施 10～ 40mg/L浓度的GA3 溶液 ,随浓度提高 ,优势粒内源IAA含量增加 ,劣势粒IAA含量更低 ,这种变化似与施用GA3、使优势粒对IAA吸收更多有关     

Effects of elevated CO2 on grain yield and quality of wheat: results from a 3-year free-air CO2 enrichment experiment

Spring wheat ( Triticum aestivum L. cv. TRISO) was grown for three consecutive seasons in a free-air carbon dioxide (CO₂) enrichment (FACE) field experiment in order to examine the effects on crop yield and grain quality. CO₂ enrichment promoted aboveground biomass (+11.8%) and grain yield (+10.4%). However, adverse effects were predominantly observed on wholegrain quality characteristics. Although the thousand-grain weight remained unchanged, size distribution was significantly shifted towards smaller grains, which may directly relate to lower market value. Total grain protein concentration decreased significantly by 7.4% under elevated CO₂, and protein and amino acid composition were altered. Corresponding to the decline in grain protein concentration, CO₂ enrichment resulted in an overall decrease in amino acid concentrations, with greater reductions in non-essential than essential amino acids. Minerals such as potassium, molybdenum and lead increased, while manganese, iron, cadmium and silicon decreased, suggesting that adjustments of agricultural practices may be required to retain current grain quality standards. The concentration of fructose and fructan, as well as amounts per area of total and individual non-structural carbohydrates, except for starch, significantly increased in the grain. The same holds true for the amount of lipids. With regard to mixing and rheological properties of the flour, a significant increase in gluten resistance under elevated CO₂ was observed. CO₂ enrichment obviously affected grain quality characteristics that are important for consumer nutrition and health, and for industrial processing and marketing, which have to date received little attention.     

应用灰色关联度分析影响水稻空秕率的生理因素

本文应用灰色关联度分析法,对水稻灌浆过程中穗部主要生理因素间的相关性及其对水稻空秕率的影响进行了分析．明确了各因素在影响水稻空秕率中的作用．为水稻高产栽培和新品种选育提供了理论依据．     

高温对杂交水稻籽粒灌浆和剑叶某些生理特性的影响

以杂交籼稻特优559为材料,探讨了高温胁迫对水稻灌浆期剑叶中有关生理特性和籽粒灌浆速率的影响.结果表明:高温胁迫加速了剑叶叶绿素的丧失,使SOD活性明显降低,质膜透性和MDA含量明显增加,脯氨酸、AsA、GSH、可溶性蛋白质以及可溶性糖含量明显降低,籽粒灌浆速率和籽粒重下降.高温使灌浆期水稻叶片衰老加速、光合能力下降是其导致灌浆速率、结实率、粒重和籽粒产量降低的主要生理原因.     

Effect of cooling rate on the microstructure and luminescence properties of Sr2MgSi2O7:Eu2+,Dy3+ materials

Sr₂MgSi₂O₇:Eu²⁺,Dy³⁺ long afterglow materials were prepared by a high‐temperature solid‐state reaction method with different cooling rates. The cooling rate had a slight effect on X‐ray diffraction patterns and photoluminescence performance, but significantly modified the grain boundaries and long afterglow properties of the Sr₂MgSi₂O₇:Eu²⁺,Dy³⁺ materials. When the cooling rate was 1°C/min, grains remained intact with clear grain boundaries. As the cooling rate increased from 1°C/min to 5°C/min, some grain boundaries became indistinguishable. The afterglow properties were optimized, presenting best performance at the cooling rate of 3°C/min. The trap state was investigated and illustrated through thermoluminescence curves. The depths of the traps of all the samples were unchanged, whereas densities changed to a large extent, leading to different afterglow properties. The retrapping process is discussed based on the afterglow curves.     

稻米品质性状对开放式空气二氧化碳浓度增高的响应

利用开放式空气CO2浓度增高(FACE)系统平台。研究大田栽培条件下粳稻武香粳14号稻米品质性状对CO2浓度增高200μmol·mol^-1的响应。结果表明．FACE处理稻谷的出糙率平均比CK高1．4个百分点,整精米率平均比CK低12．3个百分点,较低的供N水平有利于提高FACE条件下的出糙率．较高的供N水平有利于提高FACE条件下的整精米率;FACE处理的稻米垩白略有增加。垩白粒率平均比CK高11．9个百分点,垩白度平均比CK平均高2．8个百分点,较高的供N和供P水平有利于降低FACE条件下垩白大小、垩白粒率和垩白度;FACE处理稻米糊化温度平均比CK平均高0．52℃,胶稠度有提高的趋势,但对稻米直链淀粉含量影响较小,较高的供N和供P水平有利于降低FACE条件下稻米的直链淀粉含量,较低的供N和较高的供P水平有利于降低FACE条件下稻米胶稠度,较低的供N水平有利于降低FACE条件下稻米糊化温度;FACE处理使稻米蛋白质含量比CK平均低0．6个百分点,较低的供N和供P水平有利于降低FACE条件下稻米蛋白质含量。     

控灌对小麦植株体内激素含量与籽粒灌浆速率的影响

利用防雨棚研究了控灌对小麦植株体内激素含量与籽粒不乐速率的影响。结果表明：随控水加重,小麦旗叶、根系和籽粒中ＡＢＡ含量迅速达到高峰,然后快速降低;控水愈重,ｉ－ＰＡｓ峰值和籽粒灌浆速率峰值出现愈早,尔后下降,从而加速了植株衰老进程,导致产量降低。籽粒灌浆速率变化与旗叶,根主籽粒中激素含量变化呈极显著相关,且上述性状在相对含水量６０％处理下与８０％（对照）相比无显著差异,从而为小麦节水栽培提供了依据     

大百合小孢子发生和雄配子体发育研究

用常规石蜡切片技术和压片法对大百合小孢子发生和雄配子体发育进行观察。结果表明：花药4室,花药壁由表皮、药室内壁、中层和腺质绒毡层组成,花药壁发育方式为单子叶型,药室内壁部分细胞发育后期发生纤维状加厚。小孢子母细胞减数分裂过程的胞质分裂为连续型,四分体多数为左右对称型,偶有四面体型。成熟花粉为2细胞型,具1个萌发沟。经TTC法检验,成熟花粉生活力为86.3%。从小孢子的发生及雄配子体发育的整个过程看,未见异常现象,能形成大量正常的成熟花粉。