不同产量水平旱地冬小麦品种干物质累积和转移的差异分析

旱地小麦高产栽培中品种起着重要作用,研究不同产量水平旱地冬小麦品种干物质累积和转移的差异,对黄土高原旱区作物高产稳产有重要意义。以9个旱地冬小麦品种为材料,通过田间试验研究了不同产量水平旱地冬小麦品种的生物量、花前花后干物质累积量、干物质转移量、转移率及转移干物质对籽粒的贡献率、叶面积、SPAD值以及光合速率的差异。结果表明,不同小麦品种的生物量、花前花后干物质累积量、干物质转移量、转移率及转移干物质对籽粒的贡献率均存在明显差异。与不施肥相比,高、中、低3个产量水平小麦品种在低养分投入时,成熟期生物量分别提高29%,22%和6%,高水平时分别提高46%,39%和23%,高产品种的生物量及其对养分投入的敏感程度明显高于低产品种。不同品种的花后干物质累积量随养分投入水平提高而增加,但花前营养器官中储存物质的转移量、转移率和对籽粒的贡献率却明显随之下降。功能叶(旗叶)在灌浆期高、中、低3个产量水平品种的SPAD值在低养分投入条件下分别为20.7、17.5和13.7;高养分投入时,分别为35、26.1和16.8。高产品种西农88的光合速率为6.0μmolCO.2m-.2s-1),中产和低产品种的平均光合速率分别为4.3μmolCO.2m-.2s-1和4.0μmolCO.2m-.2s-1,高产品种功能叶(旗叶)在灌浆期能保持较高的SPAD值和光合速率,因而花后能生产较多的干物质,但其花前干物质转移量、转移率及转移干物质对籽粒的贡献率均没有明显优势。可见,花后较高的叶绿素水平、光合速率和干物质累积是旱地小麦品种高产的重要原因。选择优良品种,采取合理的栽培措施,特别是通过养分调控保持花后具较高的干物质累积量是西北旱地进一步提高冬小麦产量的重要途径。     

Effect of Moisture Supply, Root Temperature, and Growth Regulators on Photosynthesis of Isolated Rooted Leaves of Sweet Potato (Ipomoea batatas)

Isolated rooted sweet potato leaves were used to study the effectof carbohydrate use and storage on photosynthesis. Tuberingof the roots was controlled (1) by varying the moisture aroundthe roots, (2) by varying the root temperature, or (3) by treatingthe leaves with growth regulators. When tubering was greatestthe total dry matter formed per unit area of leaf was also greatest.Benzyl adenine applied to the lamina increased the proportionof total dry matter in the tubers. The experiments show that increasing tuber growth increasesnet assimilation rate, supporting the view that rate of photosynthesisdepends on the capacity of sinks to accept photosynthate.     

铅对几种作物生长的影响及其在植物体内的积累

根据将醋酸铅溶液施入土壤及喷洒叶片的盆栽试验可以确定：(1)铅对植物的毒性不大,植物对铅的忍耐力很强。目前自然界中的铅污染程度不足以直接伤害植物本身。(2)溶液中的铅可以被植物的根系吸收,也可以被叶片直接吸收。吸收量与环境中的铅浓度成正比。(3)铅在植物体中移动性很小,根吸收的铅主要积累在根部,叶片吸收的铅主要积累在叶部。有少量铅可以向上或向下转移,但极少能进入果实的内部及块根的淀粉中。     

不同质地土壤对花生根系生长、分布和产量的影响

为了探究土壤类型与花生(Arachis hypogaea)根系生长及产量之间的关系, 采用箱栽的方法, 研究了不同质地土壤(砂土、壤土、黏土)对花生根系生长、分布和产量的影响。砂土和壤土中花生根系干物质重各时期均显著高于黏土中, 但生育后期黏土中花生根系干物质重比壤土和砂土下降相对较慢。从不同类型土壤质地根系分布及根系活力来看, 黏土根系主要分布在上层土壤, 但上层土壤根系活力后期下降慢; 砂土有利于花生根系向深层土壤生长, 但上层土壤根系活力后期下降快; 而壤土对花生根系生长和活力时空分布的影响介于黏土和砂土之间。砂土有利于花生荚果的膨大, 且花生荚果干物质积累早而快, 但后期荚果干物质重积累少; 壤土的花生荚果干物质积累中后期多, 黏土则在整个生育期均不利于花生荚果干物质积累。最终荚果产量、籽仁产量和有效果数均表现为壤土最大、砂土次之、黏土最小。研究表明通气性和保肥保水能力居中的壤土更适合花生的根系生长发育及产量的形成。     

Phloem-Specific Expression of the Tobacco Mosaic Virus Movement Protein Alters Carbon Metabolism and Partitioning in Transgenic Potato Plants

The tobacco mosaic virus movement protein (TMV-MP) has pleiotropic effects when expressed in transgenic tobacco (Nicotiana tabacum) plants. In addition to its ability to increase the plasmodesmal size-exclusion limit, the TMV-MP alters carbohydrate metabolism in source leaves and dry matter partitioning between the various plant organs. In the present study the TMV-MP was expressed under the control of a phloem-specific promoter (rolC), and this system was employed to further explore the potential sites at which the TMV-MP exerts its influence over carbon metabolism and transport in transgenic potato (Solanum tuberosum) plants. Immunohistochemical analyses indicated that the TMV-MP was localized mainly to phloem parenchyma and companion cells. Starch and sucrose accumulated in source leaves of these plants to significantly higher levels compared with control potato lines. In addition, the rate of sucrose efflux from excised petioles was lower compared with control plants. Furthermore, under short-day conditions, carbon partitioning was lower to the roots and higher to tubers in rolC plants compared with controls. These results are discussed in terms of the mode(s) by which the TMV-MP exerts its influence over carbon metabolism and photoassimilate translocation.     

甜椒始花期吸收的氮素在体内的动态分配规律

 通过水培试验,利用15N示踪技术研究了甜椒(Capsicum annuum L.)始花期吸收的氮素在体内的动态分配规律。结果表明：甜椒营养器官干物质积累动态呈快速直线增长趋势,而果实则从盛采前期开始 超过其它器官。根与果实含氮量从始采期开始一直维持在同一水平;叶片中氮的含量则随生长发育而不断下降。在果实盛采期,叶片、果实和根中的氮素含量差异不明显,但是均比茎和侧枝高两倍。甜椒植株各器官的氮素积累动态与干物质积累动态相似。在始花期通过根吸收的大部分标记态氮首先分配、贮存在叶片中,吸收后第二周发现有１/2的标记态氮运转到了植物的新生部分,至吸收后的第四周标记态氮运转显著下降,但是,在吸收后的第六周仍然发现有小部分标记态氮运转到了新生部分。说明新近吸收的氮素在甜椒体内的再运转相对容易,其再利用率也高,随着在植物体内某器官存在时间的延长其再利用率逐渐降低。在整个果实收获期间,甜椒不同器官之间以果实对氮素的竞争力最强。在整株水平上,始花期吸收的标记态氮从营养器官向生殖器官的运转,既受到氮素竞争库（果实）强度和容量的影响,也受到时间因素的制约。     

Sucrose Phosphate Synthetase from Various Plant Origins

Some properties of sucrose-P synthetases obtained from various plant tissues, including sweet potato roots, potato tubers and leaves of barley, rape and ladino clover were studied. The specific enzyme activity of the sucrose-P synthetase from sweet potato roots was much lower than that of the sucrose synthetase of the other tissues. The enzyme activity decreased gradually as the roots developed. The optimum pH did not differ between enzyme preparations from sweet potato roots and barley leaves. Manganese chloride exhibited a marked stimulative effect on the sucrose-P synthetase from sweet potato roots and potato tubers, whereas it was inhibited the barley leaf enzyme.

Kinetic studies of sucrose-P synthetase showed that the behavior of the enzyme to the substrates did not differ in the enzyme sources examined. The substrate saturation curve of the enzyme with respect to fructose-6-P was sigmodal in shape, giving a straight line with a slope of 1.35~1.5 (n value) in a plot of the data using the empirical Hill equation. On the other hand, enzymes from all the various tissues exhibited a hyperbolic substrate saturation curve for UDP-glucose, obeying the ordinary Michaelis-Menten type reaction. Manganese chloride had no effect on the Km for UDP-glucose, the S_0.5 for fructose-6-P and the n value of the enzyme from potato tuber tissues.     

An analysis of the effects of nutrient supply on the growth of potato crops

Fertilizer nitrogen did not delay tuber initiation by the potato variety King Edward in the field, but slowed the early growth of tubers. Later, N hastened tuber growth and the largest amounts prolonged it. Leaf and stem growth were increased by N from an early stage. Leaf area index (L) reached maxima of 2.5 to 3.0 with the largest amounts of N, and 1.0 with no nitrogen: L decreased after late July, faster with increased N, and only the largest amount prolonged the life of the haulm. N increased leaf area duration (D) by up to 125% in both years. D was 21% greater in 1964 than 1963, and net assimilation rate in August and September was larger; consequently mean yield was 50% more in 1964. Uptake of nitrogen and N % of dry matter were increased by increasing nitrogen. The N % of tuber dry weight remained constant or increased slightly from about 2 weeks after tuber formation, while N % of the leaves and stems decreased rapidly, and much N was transferred from tops to tubers. The 1964 results suggest that tuber growth depends on continued nitrogen uptake by the plant. P and K had small effects compared with those of N. K increased leaf area duration by 9% in 1963 and 3% in 1964, and yield by 11 and 8% respectively. P increased leaf area duration by 17% and yield by 9% in 1964. K had very small effects until the end of the season, when it prolonged the period of growth. P increased growth rates of all parts of the plant up to 4 weeks from emergence, and the differences in dry weight at that time persisted to maturity but did not increase.     

干旱胁迫下喷施外源植物激素对甘薯生理特性和产量的影响

为探讨不同时期干旱胁迫下喷施外源植物激素对甘薯生理特性和产量的影响,明确喷施外源植物激素的最佳时期,在人工控水条件下研究了移栽后20(前期)、60(中期)和100 d(后期)干旱胁迫下喷施6-苄氨基嘌呤(6-BA)、α-萘乙酸(NAA)和脱落酸(ABA)对甘薯内源激素含量、光合荧光特性和产量的影响。结果表明: 与喷清水相比,喷施外源植物激素均能显著提高甘薯产量,以6-BA增幅最大,其次是NAA和ABA;前期喷施效果好于中期和后期。不同时期干旱胁迫下,喷施外源植物激素可显著提高甘薯叶片的光合和叶绿素荧光参数,缓解因干旱引起的玉米素核糖核苷(ZR)和生长素(IAA)含量下降的现象。逐步回归分析表明,内源激素和光合特性是影响甘薯产量的关键指标。通径分析表明,前期干旱胁迫下喷施外源植物激素主要通过影响净光合速率(P_n)、IAA、ZR、最大光化学效率和光化学性能指数来影响甘薯产量。生长前期喷施6-BA可调控甘薯内源激素含量,提高光合特性,有效缓解干旱造成的产量损失。     

有机肥对粉垄蔗地土壤养分及甘蔗产量品质的影响

为了研究施用有机肥对粉垄条件下甘蔗产量和品质的影响,该研究以蚯蚓粪、猪粪分别与复合肥配施于粉垄蔗地中,并以单施复合肥作为对照,研究有机肥与复合肥配施对粉垄土壤理化性状及甘蔗养分、产量、蔗茎品质的影响。结果表明:(1)与对照相比,有机肥与复合肥混施可在不同时期分别提高粉垄土壤有机质、全氮、全磷、碱解氮、速效磷、速效钾含量,且对于土壤中速效养分含量的提升主要集中于甘蔗生长前期(6—8月),但在土壤pH值和容重方面影响不显著。(2)蚯蚓粪、猪粪与复合肥混施均能不同程度提高甘蔗生长前期的+1叶和根系中的全氮、全磷、全钾含量,使产量分别比对照提高了28.09%、32.81%。砍收时甘蔗的茎长、茎径、单茎重、有效茎数、蔗汁糖分、甘蔗糖分高于对照但不显著,出苗率、分蘖率、锤度影响不显著。粉垄耕作条件下,选择合适的有机肥与复合肥配施可增加土壤速效养分和有机质、全氮、全磷含量,也能提高甘蔗根叶全氮、全磷、全钾含量,提高甘蔗产量。     

Expression of a deregulated tobacco nitrate reductase gene in potato increases biomass production and decreases nitrate concentration in all organs

We investigated the physiological consequences for nitrogen metabolism and growth of the deregulated expression of an N-terminal-deleted tobacco nitrate reductase in two lines of potato (Solanum tuberosum L. cv Safrane). The transgenic plants showed a higher biomass accumulation, especially in tubers, but a constant nitrogen content per plant. This implies that the transformed lines had a reduced nitrogen concentration per unit of dry weight. A severe reduction in nitrate concentrations was also observed in all organs, but was more apparent in tubers where nitrate was almost undetectable in the transgenic lines. In leaves and roots, but not tubers, this nitrate decrease was accompanied by a statistically significant increase in the level of malate, which acts as a counter-anion for nitrate reduction. Apart from glutamine in tubers, no major changes in amino acid concentration were seen in leaves, roots or tubers. We conclude that enhancement of nitrate reduction rate leads to higher biomass production, probably by allowing a better allocation of N-resources to photosynthesis and C-metabolism.Abbreviations DAP Days after planting - Gln Glutamine - NR Nitrate reductase - WT Wild type     

主成分分析在指导红薯施肥中的应用--以漂白湿润淋溶土为例

漂白湿润淋溶土表层的有效钾、全磷、有效磷含量显著高于表下层,其它养分上下两层的含量差异尽管没有达到的显著性水平,但都有向表层集中的趋势.主分量分析结果表明,第一主分量是含氮有机质形成过程强度的量度,表层和表下层有机质、全氮、全磷、有效氮、表下层有效磷均对第一主分量有较大的正向负荷量.第二主分量表示含氮有机质形成过程强度大致相同的情况下,各种养分对红薯产量促进作用的量度,其中表层和表下层有效钾、表下层有效磷对第二主分量的负荷量最大,远远超出其它因素的作用.相关分析也表明,三者与红薯产量呈极显著正相关.这间接表明,将钾肥施入表层和表下层均能提高红薯产量,磷肥只有施入表下层才有增产效果,而氮肥目前不表现增产作用.以上结论为肥料三要素组合试验所证实.这意味着在不改变变量属性的前提下,把多个变量按照变量的特性组合成少数新变量用来解决多因素复杂问题的主分量分析方法,能够科学地、合理地指导作物施肥。     

The Effect of Gamma-Irradiation on the Sucrose Content in Sweet Potato Roots and Potato Tubers

The sucrose content in both potato tubers and sweet potato roots was considerably increased by gamma-irradiation. The maximum increase was achieved by an irradiation dose of 3 to 4 kGy for potatoes and 0.8 to 2 kGy for sweet potatoes. Cooling treatment (15°C, 2 weeks) for sweet potato roots also enhanced the sucrose content (almost 2 times) but was not additive to the irradiation treatment; the maximum sucrose content in irradiated sweet potato roots was in the range of 7 to 12% irrespective of the cooling treatment, depending on the variety of sweet potatoes. Irradiation made the sucrose content in the roots 2 to 4 times higher.     

Experimentally determined translocation of 134Cs in potatoes

The results of a greenhouse experiment on the translocation rate of ¹³⁴Cs from potato leaves to tubers were compared with calculations of the radioecological model ECOSYS-87 and other literature values. The ¹³⁴Cs activities applied at three development stages (three pinnate leaves fully developed, onset of flowering, onset of yellowing) to leaves of the plant were taken as starting points for the model to calculate the activity in the tubers at harvest. The default yield in the model was replaced by the experimentally obtained values. The translocation rate measured in the greenhouse experiment was 4 to 14 times higher than the calculations of the model. Some possible reasons for such a high translocation rate, compared with the literature data, are discussed. Based on these comparisons, it is concluded that maximal translocation occurs at the growth stage of flowering of a crop and that the development stage of a crop might be a stronger parameter to describe the time dependency of translocation than the usually applied parameter `days before harvest'.     

硫硒配施对茎瘤芥生长和营养效应的研究

以茎瘤芥品种‘涪杂1号’为材料,通过盆栽实验探讨不同浓度的硫(S)、硒(Se)配施处理对茎瘤芥干物质积累、矿质元素吸收及膨大茎营养品质的影响,为生产中合理施用硫、硒肥提供理论依据.结果表明:与对照(S0Se0,未施硫硒肥)相比,增施硫、硒肥处理均能显著提高茎瘤芥的根、膨大茎、叶片和单株干物质产量,并以S50Se1[S/Se=50(mg/kg)/1(mg/kg)]和S100Se1的处理效果较好,其单株干物质产量分别比对照显著增加32.3%和36.2%;不同硫、硒浓度配施处理对茎瘤芥13种矿质元素积累的影响不同,主要显著促进了茎、叶对氮、磷、钾、硫、硒的吸收积累,而对其它元素的影响不显著,其中茎、叶的硒含量以S50Se3处理最高,硫含量以S100Se1处理最高;各硫硒配施处理对膨大茎营养品质的影响不同,其中S50Se1和S50Se3处理能显著提高膨大茎有机硒、总氨基酸和粗蛋白含量,而对维生素C和可溶性糖含量无显著影响.可见,适宜的硫硒配施可以明显促进其对矿质元素的吸收,提高植株干物质积累,有效改善茎瘤芥膨大茎营养品质,且硫硒配施用量以S 50mg/kg、Se 1mg/kg为宜.     

Role of calonyctin on free sugars in relation to starch accumulation in developing sweet potatoes

Calonyctin, a natural plant growth regulator extracted from the leaves of Calonyction aculeatum (L.) House, can promote crop growth and increase crop yield. The specific reasons for this response are unknown. This study was conducted to determine the effect of calonyctin treatment on the free sugars of sweet potato [Ipomoea batatas (L.) Lam.] as related to starch accumulation. The sweet potatoes were grown in the field in 1992, treated by foliar spray with Calonyctin concentrations of 0 (control) and 0.1 activity unit (CTSP) at 20 days after planting (DAP) at the rate of 190 liters of diluted solution/ha., and sampled periodically to determine free sugars. The response of sweet potato to calonyctin was first detected at 40 days after treatment (on 60 DAP). Data indicated that calonyctin treatment significantly increased starch synthesis in storage roots, decreased the fluctuation tendency of total sugar level during the growth period, and kept the sugar level relatively constant with a gradual rise regardless of variations in weather. The level of the reducing sugars in CTSP leaves was higher at 60 and 160 DAP and lower at 100, 120, and 140 DAP. During rainy days (100 DAP), the reducing sugars in CTSP storage roots remained at a lower level when those in controls reached high levels. The sucrose content in CTSP leaves was 40–138% greater than that in controls except at 80 and 120 DAP, and the ratio of sucrose to total nonreducing sugars remained at 100% in CTSP leaves even on rainy and cool days and above 96% in CTSP storage roots except on cool days (140 and 160 DAP), suggesting that calonyctin treatment promoted the synthesis and transfer of sucrose and supplied abundant sugar precursors for starch accumulation in storage roots.Abbreviations DAP days after planting - CTSP calonyctin-treated sweet potato with 0.1 activity unit     

EGTA对Cd胁迫下蓖麻Cd积累和营养元素吸收的影响

以‘淄蓖麻5号’蓖麻品种为材料,通过盆栽试验研究了重度Cd土壤污染（100 mg·kg^-1）条件下,不同浓度（0、0.5、1.0、2.0 mmol·kg^-1）外源螯合剂——乙二醇双(2-氨基乙基醚)四乙酸(EGTA)对蓖麻植株生长、Cd积累和营养元素吸收的影响,探讨外源螯合剂调控Cd污染土壤上植物生长和修复效应。结果显示：（1）在Cd胁迫下,土壤中外源添加0.5~2.0 mmol·kg^-1EGTA使蓖麻根系鲜、干重比不添加EGTA对照不同程度降低,但植株总干重没有受到显著影响。（2）外源EGTA能有效促进Cd从蓖麻根部向地上部的转移,2.0 mmol·kg^-1的EGTA处理使蓖麻叶片Cd 含量显著增加了41.34倍;与不添加EGTA对照相比,外源EGTA处理蓖麻叶片中Cd积累量随添加EGTA的浓度增加而显著大幅度增加14.0~45.6倍,占相应植株总积累量的36.89%~58.63%,而茎中Cd积累量增加幅度较小,根中Cd积累量则显著降低。（3）Cd胁迫条件下,外源EGTA对蓖麻各器官矿质元素含量的影响不一,EGTA促进K向蓖麻地上部的转运,同时抑制Mg向植株地上部转运;随土壤添加的EGTA浓度提高,蓖麻植株对Ca吸收表现为低促高抑,叶片Zn含量和植株Cu含量逐渐增加,叶片和根系Fe含量及植株各器官Mn含量显著增加。与无Cd胁迫对照相比,EGTA在提高植株Cd积累的同时,降低了根系对K的吸收。研究表明,Cd胁迫显著抑制了蓖麻植株的生长,适宜浓度的外源EGTA对Cd的这种抑制有显著的缓解作用;外源EGTA改变了Cd在蓖麻根、茎、叶中的积累分布情况,提高了Cd从根系向地上部,尤其是向叶片的转移能力,从而强化了蓖麻对Cd污染土壤的修复效率;在采用EGTA强化植物修复Cd污染土壤时,应适量增施K肥以保证植株的正常生理代谢。     

Dry matter production and partitioning in potato plants subjected to combined deficiencies of nitrogen, phosphorus and potassium

Three experiments examined effects on growth, dry matter partitioning and nutrient uptake in potato plants grown in large pots under different combinations of adequate and deficient levels of nitrogen, phosphorus and potassium. N supply affected the growth of all leaves, with low N reducing both the size of individual leaves and the extent of branch growth. P and K availability affected the growth of later formed leaves and only when both were deficient was branch growth substantially reduced. At later stages of growth, total green leaf area was significantly reduced by deficiency of each of the nutrients. Partitioning of dry matter to tubers was markedly reduced by K deficiency and increased in one experiment by P deficiency. When both P and K were deficient, partitioning approximated that under non‐limiting conditions. Leaf weight ratio (LWR) was higher under K deficiency, but not when P was also deficient, and was consistently higher when the ratio of K : P in dry matter was less than approximately five. In these experiments, LWR was not consistently related to shoot N% and N supply had relatively little effect on partitioning. There were large treatment effects on tuber dry matter percentage, characterised by significant interactions especially between N and K. Deficiency of one nutrient increased the concentration of others but uptake was highly regulated as crop content of all three nutrients was reduced when the supply of any one was deficient. The results show that the response of potatoes to single deficiencies may be influenced greatly by the levels of other nutrients.