水分亏缺对不同小麦品种矿质元素吸收分布及水分利用的影响

在限制小麦灌溉面积的大背景下,为进一步稳产促优,本文探讨了华北地区水分亏缺对不同小麦品种矿质元素吸收、分布特性及其与植株水分利用和产量的关系。选用3个生态类型冬小麦品种(抗旱品种‘沧麦6001’、丰水高产品种‘邯麦9’和多抗超高产品种‘济麦22’),设置正常和水分亏缺两个水平的人工气候室箱体栽培试验,主要调查了小麦不同器官矿质元素含量、积累量变化、分配比以及矿质元素变化对水分利用效率和产量的影响。结果表明,矿质元素的含量和分配具有器官特异性,其中小麦叶片Ca、籽粒Cu和Zn、茎秆Na的含量、分配比最高;Fe含量、积累量及Fe分配比因品种、器官、水分差异而不同:正常水分下,‘沧麦6001’以茎秆、‘邯麦9’以叶片的Fe含量、分配比最高;‘济麦22’以茎秆和颖壳Fe含量较高,以叶片和颖壳Fe分配比较高。而水分亏缺下,‘沧麦6001’和‘邯麦9’Fe含量以籽粒最高,‘济麦22’以叶片最高;3品种Fe分配比均以籽粒最高。此外,水分亏缺增加了小麦籽粒Cu、Zn含量及分配比,籽粒Zn、Na和Ca积累量,显著增加‘沧麦6001’的水分利用效率和产量以及‘济麦22’的产量水分利用效率;而降低了‘沧麦6001’籽粒Mn、‘邯麦9’籽粒Cu和Mn、‘济麦22’籽粒Cu和Fe积累量以及‘邯麦9’水分利用效率、干物重、产量。综上,水分亏缺下,‘沧麦6001’更易高产高效,籽粒Fe含量增加,但需补充一定的Mn元素;‘济麦22’的水分利用效率增加,产量未显著下降,需补充一定Fe元素保证品质;‘邯麦9’产量和水分利用效率均显著下降,且籽粒中Cu和Mn积累下降明显。相关分析表明,Cu、Zn、Ca、Mn含量与干物重变化之间存在一定的相互调节作用,但未直接影响产量和水分利用效率,这可能与品种间差异及品种和水分互作影响有关。但矿质元素可能通过影响干物重间接调控水分利用效率的趋势是存在的,尚需进一步研究和验证。     

Responses in Some Growth and Mineral Elements of Mono Maple Seedlings to Enhanced Ultraviolet-B and to Nitrogen Supply

The effects of enhanced ultraviolet-B (UV-B) and nitrogen supply on the growth and mineral elements of mono maple (Acer mono Maxim) seedlings were studied in open semi-field conditions. Mono maple is a common species in reforestation processes in the southeast of the Qinhai-Tibetan Plateau of China. The experimental design included two levels of UV-B treatments (ambient UV-B, 11.02 KJ/m²/day; enhanced UV-B, 14.33 KJ/m²/day) and two nitrogen levels (0; 20 g N/m²/a). No visible symptoms of nutrient deficiency were observed in seedlings grown under enhanced UV-B radiation during the experiment. However, there was visible damage of enhanced UV-B radiation on leaves. Enhanced UV-B significantly reduced plant height and biomass of plants, and changed biomass allocation between organs under supplemental nitrogen supply, which lead to a decrease in root/shoot ratio. On the other hand, nitrogen supply significantly increased plant height and biomass under ambient UV-B, whereas it reduced root mass and root weight ratio, and increased stem mass and stem weight ratio under enhanced UV-B. In addition, enhanced UV-B radiation and nitrogen supply significantly affected the concentration and allocation of most nutrients in various organs, and nitrogen supply could changed the effects of enhanced UV-B on mineral element in plant parts to some extent, which may have significant impacts on nutrient cycling and may lead to the disorder of nutrient balanced and influence the growth of plants.     

Nutrient Acquisition by Soybean Treated with and without Silicon under Ultraviolet-B Radiation

The objective of this study was to determine if treatment with silicon (Si) may improve nutrient uptake by soybean under ultraviolet-B (UV-B) radiation stress. Soybean (Glycine max L.) cultivars, ‘Kennong 18’ (K 18) and ‘Zhonghuang 13’ (ZH 13), were grown in hydroponic cultures under ambient and supplemental levels of ultraviolet-B (UV-B, 280–315 nm) with and without Si. Supplemental UV-B radiation simulating 30% stratospheric ozone depletion significantly decreased plant biomass by 74.9 to 135.6%, increased leaf nitrogen (N) and phosphorus (P) by 9% and 16%, respectively, decreased leaf magnesium (Mg) contents by 9%, and calcium (Ca) by 24%. UV-B radiation caused a substantial increase in the allocation of P, potassium (K) and Ca to roots compared with stem and leaves, presumably to ensure sustained nutrient uptake under the stress. Silicon application improved the uptake of P and Mg by 11%, which favored the partitioning of dry mass to shoots under UV-B radiation and the allocation of tissue P and Ca to roots. The overall changes due to Si supported a reasonable increase in dry mass of the ‘K 18’ cultivar.     

全生育期UV-B辐射增强对棉花生长及光合作用的影响

植物光合系统是UV-B辐射最初和最重要的作用靶标。本文在大田条件下进行紫外灯照射处理,研究全生育期UV-B辐射增强(高于环境20%和40%)对棉花形态、干物质积累、光合色素和产量的影响,并通过分析棉花主茎功能叶片的气体交换参数和叶绿素荧光参数,探讨UV-B辐射增强影响棉花光合作用的机制。结果表明,UV-B辐射增强抑制了棉花生长和干物质积累,籽棉产量显著降低,且UV-B辐射越强,抑制作用越明显。随UV-B辐射的增强,棉花主茎功能叶的净光合速率(P_n)在各生育期均显著降低,叶绿素含量呈先升高后降低趋势,气孔导度(Gs)和蒸腾速率(Tr)未发生变化,胞间CO_2浓度(Ci)反而升高,说明P_n下降主要由非气孔限制因素造成。对叶绿素荧光参数的分析表明,PSⅡ的最大光化学量子产率(F_v/F_m)、实际光化学量子效率(ΦPSII)、线性电子传递速率(ETR)和光化学淬灭系数(qP)随着UV-B辐射的增强而降低,非光化学猝灭系数(NPQ)则显著升高,且各叶绿素荧光参数与Pn变化均显著相关;慢速弛豫NPQ(NPQS)及其在NPQ中的比例均随UV-B辐射的增强而显著提高,表明PSⅡ反应中心受损,光化学效率降低。以上结果证明,全生育期UV-B辐射增强降低了棉花的光合叶面积、叶绿素含量和净光合速率,引起棉花生长与物质积累受抑,产量降低。UV-B辐射增强引起的光合速率下降与PSⅡ反应中心遭到破坏密切相关。     

叶面施氮对不同类型大豆品种氮素积累与分配的影响

为研究大豆不同类型品种叶面氮素吸收、积累与分配规律,以黑龙江省三江平原大豆主栽4种类型品种为试验材料,采用¹⁵N示踪法在大豆R₅期进行叶面施氮,探究不同施氮量及品种类型各器官对标记氮素积累与分配规律。结果表明,在4.5 kg·hm^-2施氮量条件下,大豆各器官干物质量、氮素积累量及¹⁵N积累量总体均达到最高,不同类型品种间,亚有限尖叶型茎及叶器官干物质积累量最高,亚有限圆叶型叶柄、荚皮、籽粒及全株干物质积累量最高,无限圆叶型根、茎、叶、籽粒及全株氮素积累量最高,无限尖叶型叶柄和荚皮的氮素积累量最高,亚有限圆叶型根、茎和叶柄的¹⁵N积累量最高,无限圆叶型叶¹⁵N积累量最高,无限尖叶型籽粒¹⁵N积累量最高;¹⁵N分配率与积累量在根、叶、叶柄和荚皮器官均在同一处理达到最高,而在茎和籽粒中分配率与积累量的最高值不在同一处理。说明茎和籽粒中氮素分配率在不同处理间不同,更易受到叶面施氧的影响。本研究结果为大豆叶面氮素利用机制研究及不同类型品种叶面氮肥生产应用提供了理论依据。     

干旱对夏玉米碳素同化、运转与分配的影响研究

试验研究全生育期干旱对夏玉米光合特性及C素同化、运转及分配的影响结果表明,水分胁迫对夏玉米各生育期C素代谢的自身规律影响较小,主要是改变C素同化、运转、分配的绝对量和分配率。水分胁迫下夏玉米干物质及其各器官干物质累积速率降低,总量减少,且不同器官干物质转移率、转移量及其对雌穗重的贡献发生改变,叶面积系数、叶绿素含量和光合速率减少,分配、转移到生殖器官的同化物减少。充分供水处理具有最大的干物质累积量和正常的C素代谢,合理的水分供应促进玉米植株生育前期总生物量的积累以及生育后期干物质从营养体向籽粒的转移,成熟期营养器官中的非结构性碳水化合物滞留少,向籽粒中的运转彻底,可获得较高籽粒产量。     

Effects of soil type,mineral nutrition and salinity on greenhouse‐grown muskmelon in winter 1

Greenhouse experiments under winter conditions were conducted to examine the effects of soil type, mineral nutrition and salinity on vegetative growth and. fruit yield of ‘Galia’ muskmelon (Cucumis melo L.). Growth in a calcareous soil or in sand, under low nutrition level or with 200 mM NaCl added during fruit maturation, imposed significant stresses on the plants expressed by (a) a decrease in dry matter accumulation in vegetative organs, in fruit number and size, and (b) an increase in dry matter percentage in leaf blades and stems. Despite the significant differences in vegetative growth of plants grown in heavy soil vs sandy soil, and in high nutrition vs low nutrition levels, the distribution of dry matter among vegetative organs (leaves, stems and roots) was affected only slightly. Sandy soil, low nutrition and high salinity decreased branching, and thus the distribution of dry matter between the main shoot and the branches. Dry matter percentage in leaf blades and stems was a sensitive parameter which increased under soil, nutrition or salinity stresses. Fruit netting and total soluble solids (TSS) content were significantly decreased by sandy soil and low nutrition level. Application of salinity during fruit growth increased both netting and TSS.     

干旱胁迫下钾素对甘薯碳水化合物及内源激素含量的影响

【目的】研究干旱胁迫下施钾量对不同生长时期甘薯碳水化合物及内源激素含量的影响,为甘薯的抗旱高产栽培提供理论依据。【方法】选用食用型甘薯品种‘泰中6号’为材料,以硫酸钾（K₂SO₄）为供试肥料,水分处理设土壤最大持水量的60%～70%和30%～40%,依次代表正常供水（W1）和干旱胁迫（W0）;钾肥设K0、K1、K2、K3四个水平,K₂O用量分别为0、120、240和360 kg/hm2。分析了不同生长时期甘薯干物质含量、淀粉和可溶性糖含量、内源激素含量及收获期块根产量。【结果】干旱胁迫下甘薯植株干物质含量、块根和淀粉产量显著降低,施钾有利于甘薯植株干物质含量的提高、块根的膨大和淀粉的生成和积累,甘薯植株和块根干物质含量、块根淀粉含量和积累量最大均为K2处理,较K0提高幅度最大分别达到31.7%、43.6%、10.6%和50.6%。相同钾用量条件下,干旱胁迫下块根单薯重显著高于正常灌水,单株结薯数显著低于正常灌水。正常灌水条件下施钾后甘薯叶片可溶性糖含量降低,而块根可溶性糖含量升高,干旱胁迫下施钾使甘薯叶片和块根可溶性糖含量增大,较K0提高幅度最高分别达到31.4%和36.0%。干旱胁迫下施钾后甘薯叶片和块根IAA、ABA、ZR和GA含量显著增大,较K0提高幅度最高分别达到12.7%、15.7%、12.0%、10.4%和21.4%、15.6%、65.7%、13.0%,促进了甘薯植株碳水化合物含量和干重的提高,块根淀粉积累速率增大。【结论】干旱胁迫下施钾促进了干物质向块根的分配,提高了甘薯块根单薯重,从而增加了单位面积甘薯块根产量。干旱胁迫下钾素提高甘薯块根和叶片内源激素（ABA、IAA、ZR、GA）含量,块根内源激素含量的增加促进了块根淀粉的合成和积累,叶片内源激素含量的增加促进了地上部茎叶生长、茎叶干物质积累和叶片可溶性糖含量的增加,增强了甘薯的抗旱性。     

水分胁迫对黍子幼苗生长和生理特性的影响

以“晋黍8号”黍子幼苗为材料,在大棚内采用盆栽砂培法浇灌营养液,设置重旱、轻旱、正常灌溉、轻涝和重涝5个处理,植株二叶一心时开始胁迫处理,于处理后20d测定植株形态指标、生物量和含水量、叶片质膜透性、光合色素、丙二醛、抗坏血酸、脯氨酸、可溶性糖和可溶性蛋白含量等指标,研究水分胁迫对黍子幼苗生长、膜脂过氧化和渗透调节的影响。结果表明,正常灌溉下黍子幼苗生长最好,株高、茎粗、茎节数、叶片数、最大叶面积及根系、茎叶、穗的鲜质量、干质量均最大,干旱和涝害下幼苗各形态指标和生物量均明显降低,且重旱和重涝下比轻旱和轻涝下降低更明显;根系、茎叶和穗的含水量在干旱下均明显降低,涝害下表现各不相同。叶片光合色素含量在干旱下显著降低而涝害下无明显变化,质膜透性、丙二醛、抗坏血酸和脯氨酸含量在干旱和涝害下明显增加,且重旱和重涝下比轻旱和轻涝下增加更明显;可溶性糖含量在干旱下明显增加而在涝害下明显降低,可溶性蛋白含量在干旱下显著降低而在涝害下无显著变化。研究说明,干旱和涝害均对黍子幼苗造成过氧化伤害,抗氧化物质和渗透调节物质含量随之增加,但是抗氧化物质的增加并不能完全消除胁迫导致的过氧化伤害,加上光合能力降低,使黍子植株生长显著抑制。在本试验条件下,干旱胁迫对黍子幼苗的伤害比涝害严重。     

Robustness in the mineral supply from temporary grasslands

Abstract

The current study examined the capacity of different temporary grassland legume–grass mixtures under different N supply levels to supply similar amounts of elements in systems where the herbage is cut for feed. Mixtures showed a good robustness in supplying equal amounts of mineral elements in the combined herbage as well as equal concentrations in dry matter of mineral elements compared with the same species in monocultures. The reasons for the mixed systems to be able to buffer differences in N supply levels as well as different compositions of the mixtures were that legume leaves and stems had similar concentrations of mineral elements, whether in monocultures or in mixtures with grasses. Grasses in mixture with legumes had however higher N, Ca, S, Zn, Cu and tended to have higher Mg concentration, both in stems and leaves, while Mn were less concentrated in mixtures’ dry matter. Further, the mixtures doubled their dry matter accumulation in the two weeks just around grass heading. The systems partly buffered the time-wise differences in the sense that the P accumulation paralleled dry matter but the N was diluted. This was mirrored in a decrease in N concentration and maintenance of the concentration level of P and other elements. As the stem–leaf ratio was higher (p<0.05) in festulolium than in ryegrass and as the stems of festulolium have lower concentrations of N, K, Ca, S, Mg, Fe and Cu than leaves, the mixtures including festulolium had a rapidly declining proportion of these elements in the combined mixtures’ dry matter. Management options in improving the mineral supplies are thus to choose species when establishing the temporary grasslands according to functionality, to manipulate the content of legumes by the N supply level, and to time the harvest of the herbage.     

Dry matter, lipids, and proteins of canola seeds as affected by germination and seedling growth under illuminated and dark environments

The effect of germination and growth under illuminated and dark environments on canola seed reserves was investigated. Depletion of proteins and lipids in whole seedlings and their top (leaf/cotyledons) and bottom parts (stem/roots/seed coat) was independent of light, whereas the protein solubility increased at a faster rate under an illuminated environment than in the dark. A rapid increase in free fatty acids but a net decrease of dry matter content in seedlings grown in the dark environment was observed. The dry matter content of seedlings grown in the illuminated environment increased due to photosynthetic biomass accumulation.     

近期激光对植物生长调节效应的研究进展

分析了激光对植物生长调节效应的研究进展,发现研究明显具有以下特点:早期研究主要集中在激光预处理种子对种子萌发、幼苗生长发育、生理生化效应的影响以及激光处理机制的初步讨论;近年来的研究集中于激光处理对环境胁迫下植物生理生化效应影响,环境胁迫因子涉及增强UV-B辐射、干旱与冷冻,其中多数研究集中于激光对增强UV-B辐射下植物生理生化效应的影响,发现激光能增强植物抗UV-B辐射损伤,提高植物抗干旱逆境及抗冷冻能力,并对其作用机理及机制进行了探讨。今后可围绕全球生态环境变化背景下,激光处理对植物生理生化效应的影响进行研究,并深入研究激光影响的分子生物学机制机理。     

现代温室冬春茬黄瓜矿质元素吸收与分配特性研究

以欧洲类型迷你黄瓜品种戴多星为试材,研究了现代温室条件下冬春茬黄瓜不同生育期的干物质积累和矿质营养吸收分配特性,并对黄瓜的矿质营养需求量进行了估算。结果表明,黄瓜生长发育前期,植株干物质积累主要集中在叶部,初果期以茎部为主,中后期以果实积累最多。各矿质元素在黄瓜不同器官的积累量随植株生长而增加,但分配率不同。其中生长前期70%8～0%集中在叶部,茎和根中的分配量仅占同期的20%3～0%,结果后期根部的矿质元素分配率下降到1%～2%,茎叶中的比例也大幅度下降,花果中的分配率为40%5～0%。矿质元素吸收量随生长发育而呈不同程度的增加,整个生长期以氮、钾、钙为主,其次是镁和磷。各生长阶段植株对不同矿质元素吸收量不同,02～0.d和406～0.d期间钙吸收量最大,分别为8.6和21.3.kg/hm2;608～0.d钾吸收量最大,达到79.6.kg/hm2;204～0.d和801～00.d氮吸收量最大,分别为7.4和88.7.kg/hm2。     

干旱与Cd双重胁迫对土壤-小麦-蚜虫系统Cd转移规律影响的研究

为探究干旱和重金属双重胁迫对土壤-小麦-蚜虫系统内Cd转移规律的影响,为小麦蚜虫的生态调节提供理论依据,本研究以麦长管蚜[Sitobionavenae(Fabricius)]为研究对象,用原子吸收分光光度法分别测定不同土壤Cd含量(100 mg?kg-1、200 mg?kg-1)及不同程度干旱胁迫(无胁迫、中度胁迫、重度胁迫)处理下小麦根茎叶及蚜虫体内的Cd含量。结果表明:土壤Cd含量及干旱单一胁迫均对小麦及蚜虫体内的Cd含量造成了显著影响(P0.05)。两者交互作用对小麦根部及叶部的Cd含量影响显著,而对小麦茎部及蚜虫体内Cd含量影响不显著。在相同胁迫条件下, Cd在小麦中的积累分布为根茎叶。随着干旱胁迫程度增大,小麦根部Cd含量及土壤-根转移系数降低,茎部Cd含量及根-茎转移系数升高,麦长管蚜Cd含量在土壤Cd含量100mg?kg-1下高于土壤Cd含量200 mg?kg-1;中度干旱胁迫增加了麦长管蚜体内Cd累积量,而重度干旱胁迫则降低了其体内Cd累积量。叶-蚜虫的Cd转移系数明显大于土壤-根、根-茎和茎-叶转移系数且大于1,说明Cd在麦长管蚜体内产生了生物富集作用。综上所述,干旱胁迫促进了Cd从土壤向小麦茎部转移和根部Cd累积,但抑制了Cd从根部到茎部转移和茎部Cd累积;中度干旱胁迫促进了麦长管蚜体内Cd的积累,而重度干旱胁迫抑制了麦长管蚜体内Cd的积累。     

红芸豆养分限制因子及养分吸收、积累和分配特征研究

研究红芸豆养分限制因子、植株干物质和氮、磷、钾养分积累及分配规律,可为红芸豆合理施肥及高产栽培提供理论依据。大田试验条件下,以‘英国红’红芸豆为试材,设置缺素试验,采集全施肥区植株样品,分析研究红芸豆不同生育时期各器官干物质量、养分含量及积累量。结果显示,氮磷钾配合全施显著提高红芸豆产量;缺氮、缺磷、缺钾处理与全施肥处理相比,产量分别降低14.2%、8.0%和11.3%,表明影响红芸豆产量的限制因子为氮钾磷。在整个生育期,红芸豆干物质累积速率先升高后降低;根、茎、荚皮和豆粒干物质累积量呈上升趋势,叶干物质在收获期有下降趋势,收获时不同部位干物质量为豆粒茎≈荚皮叶片根。随生育期推进,茎、叶和荚皮中氮含量呈递减趋势,豆粒中氮含量呈递增趋势,而各器官磷、钾含量呈递减趋势。盛花期到结荚期是养分累积最大期,其氮、磷、钾吸收量分别占整个生育期吸收总量的28.14%、49.22%和56.20%;不同器官吸收累积氮、磷、钾量不同,成熟期豆粒、叶、茎和根中均为累积氮最多、钾次之、磷最少,荚皮中累积钾最多、氮次之、磷最少。每生产100 kg红芸豆需供给N 4.37 kg、P2O5 2.38 kg、K2O 3.53 kg,比例为1∶0.54∶0.81。     

黄土高原不同玉米-大豆间作模式对玉米生长发育的影响

以玉米品种(郑单958,豫玉22)和大豆品种(中黄24,中黄13)为材料进行田间试验,在单作和间作两种模式(间作比例分别为2:2,2:4)下研究了黄土塬区不同玉米-大豆间作模式对玉米生长发育的影响。研究结果表明,郑单958分别与大豆两个品种间作,玉米叶片叶绿素相对含量、单株叶面积、茎粗和干物质积累量从大喇叭口期开始均高于单作,株高在生育后期表现为间作高于单作。豫玉22分别与大豆两个品种间作,玉米叶片叶绿素相对含量和茎粗从大喇叭口期开始高于单作,干物质积累量从吐丝期开始高于单作,单株叶面积在吐丝期显著高于单作,株高在生育后期表现为间作低于单作。间作下的郑单958干物质积累量在生育后期高于豫玉22,更有利于增产。在所选的玉米和大豆间作模式中,郑单958和中黄24以2:4间作是黄土塬区对玉米增产更为有利的间作模式。     

外源氯处理对向日葵幼苗生长、养分吸收及植株硝态氮含量的影响

通过水培试验,研究了不同水平外源氯处理对向日葵(Helianthus.annuus)幼苗生长、干物质积累、Cl-、NO3-、全N、全P、全K含量的影响。结果表明,不同浓度外源氯(Cl-6.253～00.mmol/L)处理8.d,油葵幼苗的茎生长速率均显著下降,外源Cl-浓度越大,生长下降越显著。Cl-6.252～5.mmol/L处理8.d,油葵幼苗干物质积累速率极显著高于对照,Cl-25、50.mmol/L处理,油葵幼苗的干物质积累速率与对照差异不显著;而Cl-2003～00.mmol/L处理的幼苗干物质积累极显著下降。Cl-处理下,植株体内氯含量极显著上升,而叶片中硝酸盐含量显著下降,其中以Cl-50.mmol/L处理的叶片硝酸盐含量最低。Cl-6.251～00.mmol/L处理,油葵幼苗茎、叶全N、全P含量与对照差异不显著;Cl-200.mmol/L处理下,叶、茎全N含量显著下降,而根系全N、全P含量随Cl-处理的增加而增加。随着Cl-浓度处理的提高,油葵幼苗根、茎、叶的全K含量增加,其中以根、茎增加较快。因此,一定范围的外源氯处理,不影响向日葵生物量甚至促进生物量积累的同时,也可明显的提高向日葵幼苗的氮素利用效率。     

施用保水剂对干旱胁迫下大麦幼苗生长及光合特性的影响

为了探讨施用保水剂对干旱胁迫下大麦幼苗生长及光合特性的影响,给保水剂在大麦抗旱栽培中的应用提供理论依据。采用盆栽法通过测定在不同干旱胁迫下大麦幼苗根长、茎长、叶片相对含水量、叶片光合参数、叶绿素含量等指标,结果表明,在同等水分条件下,施用保水剂可增加大麦幼苗根长、茎长及叶片相对含水量,显著增加大麦幼苗叶片的净光合速率、气孔导度、胞间CO₂浓度、蒸腾速率,说明保水剂可以通过保持大麦叶片较高的光合特性来增强其碳同化能力,进而促进大麦幼苗的生长。且施用保水剂后大麦幼苗叶绿素含量得到显著提高,从而减小了干旱胁迫对植株带来的损害,延缓植株衰老。施用保水剂可以较好地促进干旱胁迫下大麦幼苗的生长发育。     

Yield and yield formation of field winter wheat in response to supplemental solar ultraviolet-B radiation

The stratospheric ozone decrease has heightened concern over the ecological implications of increasing solar UV-B radiation on agricultural production and natural plant ecosystems. UV-B is absorbed, and can damage many important plant species through a variety of interacting mechanisms. The effects of enhanced UV-B exposure on yield and yield formation of winter wheat associated with photosynthetic activity and total biomass development were investigated in this study. The overall experimental design included three UV-B treatments (two supplemental UV-B treatments and an ambient level) with three replicates of each treatment. Results suggested that the supplemental UV-B can cause the decrease of yield of winter wheat up to 24% with 11.4% increased UV-B. Supplemental UVB decreased dry matter accumulation most during the jointing–booting stage when the leaf area index (LAI) was the greatest. In addition, the supplemental U-VB appeared to effect the distribution of dry matter but did not effect the net assimilation ratio of the wheat.     

干旱胁迫下喷施14-羟基芸苔素甾醇对冬小麦穗花发育及碳氮代谢的调控

[目的]明确外源芸苔素甾醇类化合物(brassinosteroids,BRs)中14-羟基芸苔素甾醇(14-hydroxylated brassinosteroid,14-HBR)对干旱胁迫下冬小麦穗花发育成粒的调控效果,为小麦大田生产减轻干旱胁迫危害提供技术支撑.[方法]以大穗型品种周麦16(ZM16)和多穗型品种豫...