克隆植物矮嵩草在刈割条件下的等级反应研究

对刈割处理下高寒矮嵩草草甸建群种矮嵩草（Kobresia humilis）构件等级中基株、分株和分蘖3个层次构件单元的数量、生物量及其变异系数的变化进行了研究。结果表明．矮嵩草株丛刈割部分和未刈割部分被测性状在处理间的差异显著性以及作构件等级间变异系数的大小均为分蘖层次〉分株层次〉基株层次。刈割后相同时期内,分蘖层次对相同处理的反应发叶生得最快,基株则最为迟缓。这说明在刈割后的相同时期内,构件等级中较外层次（分蘖层次）会发生更大的表型变异．对相同强度的刈割扰动发生反应也最快。由此证实矮嵩草在刈割条件下也同样会发生等级性反应。     

不同刈牧强度对冷蒿生长与资源分配的影响

利用野外实验与盆栽实验,对不同刈牧强度下冷蒿生长与资源分配影响的研究结果表明,按比例刈割冷篙的再生生长大于留茬高度刈割,在生长季前期,不刈割冷蒿净生长高于刈割处理,而进入生长季中后期(8月中旬以后),轻度刈割净生长高于不刈割处理,冷篙种群生物量分配的总体格局是根>叶>茎,刈牧明显影响冷蒿生物量分配格局,尤其是叶和花的分配,3／4刈割或留茬4cm刈割叶生物量分配显著高于其它各处理,而花的生物量及其分配显著低于其它处理,根、茎生物量分配各处理间差异不显著．冷蒿有性生殖分配随刈牧强度的增加而降低,繁殖方式发生了改变,优先将光合产物分配给再生茎以及繁殖方式转向营养繁殖,通过克隆生长维持和扩大种群是冷蒿对强度放牧的生态适应对策。     

刈割对多年生黑麦草分蘖与叶片生长动态及生产力的影响

对不同刈割强度和时间下 ,混播草地中多年生黑麦草净分蘖数和叶片生长季节动态及其年积累和年产量进行了 2年的比较研究。结果表明 :叶片净生长与净分蘖数季节动态具有相互弥补的特点。刈割不利于多年生黑麦草的分蘖 ,所有刈割处理均不存在分蘖的“超补偿生长”效应 ;净分蘖数随刈割次数的增加而降低 ;高频刈割对分蘖的抑制效应逐年加强 ,低频刈割对分蘖的抑制效应逐年减弱。叶片生长对刈割处理的超补偿效应显著 ;刈割能刺激多年生黑麦草叶片的生长 ,提高年净生产力 ,维持混播草地中黑麦草的组分 ,增强黑麦草的竞争能力。刈割对多年生黑麦草年净生产力的提高主要是通过刺激其叶片的生长来实现的。叶片净生长与净分蘖数的年积累存在显著负相关 (R=- 0 .893,P<0 .0 5)     

EFFECTS OF LIGHT AND TEMPERATURE ON SEED GERMINATION OF FICUS HISPIDA IN XISHUANGBANNA, SOUTHWEST CHINA

 该研究应用人工气候箱设置不同的光照和温度梯度, 探讨对对叶榕(Ficus hispida)种子萌发的影响。结果表明, 荧光灯条件下(红光和远红光比例(R/FR)为4.56, 光量子密度(PPFD)约为90 μmol&;#8226;m^–2&;#8226;s^–1), 温度对种子萌发速率有显著影响, 而对最终萌发率的影响不显著。对叶榕的种子为光敏性种子, 萌发严格需光, R/FR对种子最终萌发率的影响显著, 较高的R/FR促进种子萌发, 而较低的 R/FR 抑制种子萌发。光强影响种子的萌发速率, 较弱的光照可以延缓种子萌发, 但并不能完全抑制其萌发。在30 ℃条件下, 对叶榕的种子可以在较高的 R/FR (0.42) 水平下萌发, 但温度为23/20 ℃ 时, 种子对 R/FR 的要求增高, 0.42的R/FR不能导致种子萌发。说明较低的温度和 R/FR 都可以显著抑制对叶榕的种子萌发, 而较高的温度和R/FR皆有利于种子的萌发。     

光质对东北次生林生态系统主要树种种子萌发的影响

以东北次生林生态系统5个主要树种（日本落叶松、黄檗、色木槭、水曲柳和红松）种子为对象,采取室内控制(5个主要树种)和野外模拟(红松和日本落叶松)相结合的方法,研究光质对种子萌发的影响.室内和实际林分下分别设置了4种不同光质类型处理（以黑暗为对照）和3个红光/远红光比值(R/FR)梯度.结果表明： 不同光质类型除对日本落叶松种子萌发的影响不显著外,对其他4个树种种子萌发影响均显著.其中,黄檗种子萌发率在白光下达到最高,色木槭、水曲柳和红松种子萌发率在红光-远红光-红光照射下达到最高.林分内试验结果与室内一致,红松种子萌发率随林内R/FR下降而明显下降,落叶松种子萌发则不受光质的影响.在自然林分条件下,R/FR随着光斑活动不断变化,色木槭、水曲柳和红松种子萌发格局可能是对森林光斑环境适应的结果.大粒种子萌发显著受光质的影响.     

刈割强度对冷蒿可溶性碳水化合物的影响

通过对播种、移植于大小不同花盆的1年龄和多年龄冷蒿进行刈割实验。探讨冷蒿在不同刈割强度下可溶性碳水化合物含量和库的变化。结果表明。在不同的刈割强度下。冷蒿可溶性碳水化合物含量表现为：刈割1／4和刈割2／4比不进行刈割和刈割3／4高。可溶性碳水化合物库表现为：刈割1／4＞对照＞刈割2/4＞刈割3／4;刈割后在不同的资源与空间。冷蒿体内可溶性碳水化合物含量和可溶性碳水化合物库均表现为：大盆＞小盆＞移栽盆;在不同的刈割强度下生物量发生明显的变化,刈割1／4冷蒿生物量比对照增加,出现超补偿生长。别割3／4生物量降低。出现欠补偿生长。说明适度的干扰有利于冷蒿碳水化合物、生物量的积累;可利用资源、空间越多。可溶性碳水化合物含量越高。可溶性碳水化合物库的变化趋势与再生生长的趋势一致。说明可溶性碳水化合物库可以表征再生生长能力。     

青藏高原东部高寒草甸群落生物量和补偿能力对施肥与刈割的响应

以青藏高原东部高寒草甸群落为研究对象,通过比较了不同施肥条件和不同刈割对群落地上生物量和多样性的影响。结果表明施肥可提高生物量且生物多样性降低,施肥和刈割处理后,施肥效应显著而刈割效应不显著,说明施肥是主效应。实验还发现施肥可提高群落的补偿能力;不同资源梯度的情况下植物群落对刈割处理后补偿作用也不相同,对刈割处理后植物群落补偿能力随资源的升高而增强。当未施肥和施肥30g/m^2时相同强度的1次刈割的补偿能力较相同强度的2次刈割的补偿能力大;当施肥60g/m^2和120g/m^2时相同强度的2次刈割的补偿能力较相同强度的1次刈割的补偿能力大。     

光照，施肥及刈割对垂穗披碱草生长的影响

以甘南高寒草甸常见牧草垂穗披碱草（Elymus nutans）为研究对象,比较不同光照、肥力条件下,垂穗披碱草对刈割的生长和补偿反应。研究发现,光照和肥力存在交互作用。施肥、中度光照下,未刈割单株垂穗披碱草地上生物量最大,为3．239g。施肥、中度光照下,比较刈割植株地上生物量补偿发现：晚期刈割单株地上生物量的补偿大于早期刈割;刈割强度无显著影响;刈割两次单株地上生物量的补偿最大。施肥、中度光照、晚期、轻度、一次刈割时,单株垂穗披碱草地上生物量累积最大,为4．500g。全光照、未施肥条件下,刈割对单株地上生物量的补偿无影响。就补偿机制而言,植株地上生物量的增加以地下生物量为代价。     

刈割、施肥和浇水对矮嵩草补偿生长的影响

通过对青海海北高寒矮嵩草(Kobresia humilis)草甸进行为期3年的野外控制试验, 研究了刈割(留茬1 cm、3 cm及不刈割)、施肥(2.5 g·m^-2尿素+ 0.6 g·m^-2磷酸二胺、不施肥)和浇水(20.1 kg·m^-2、不浇水)处理对矮嵩草补偿生长(包括分株密度、株高和分株地上生物量)的影响, 及其比叶面积、叶片净光合速率和相对增长率的变化, 探讨矮嵩草补偿生长的机制。研究结果表明: 刈割后, 矮嵩草的补偿生长高度和比叶面积显著降低; 分株密度有增加的趋势, 但会随刈割强度的增加而下降; 株高和生物量的相对增长率随刈割强度的增加而呈上升趋势; 补偿地上生物量在重度刈割处理下最高。施肥能显著增加矮嵩草的补偿高度、分株密度、补偿地上生物量、株高相对增长率、生物量相对增长率、比叶面积和净光合速率; 与不浇水处理相比, 浇水处理对重度刈割处理下的分株地上生物量、密度相对增长率、比叶面积和净光合速率无影响, 而显著降低了中度刈割处理下的补偿高度和株高相对增长率, 提高了不刈割处理下的分株密度和重度刈割处理下的生物量相对增长率。刈割、施肥和浇水处理的交互作用也显示出刈割与施肥对矮嵩草补偿生长具有拮抗效应, 而刈割与浇水具有协同效应。上述结果说明, 矮嵩草在刈割后可通过增加分株密度和相对增长率等途径来提高补偿能力, 弥补在生长高度上出现的低补偿, 而施肥可显著抵消刈割的不利影响, 提高矮嵩草的补偿能力。     

施肥和刈割对冷地早熟禾补偿生长的影响

以青藏高原东部高寒草甸常见牧草冷地早熟禾(Poa crymophila)为研究对象,比较研究了肥力和不同刈割处理对植物生长和生物量补偿的影响。实验采用随机设计,肥力分为施肥和不施肥,刈割处理为刈割时间、刈割频度和刈割强度3因子组合。结果表明:不刈割情况下,施肥显著促进冷地早熟禾的生长,而在刈割情况下,施肥对植物的生长没有明显的促进作用甚至有负作用。不施肥,刈割可促进冷地早熟禾地上生物量的增加并发生超补偿,但补偿程度因刈割强度、刈割频度和刈割时间而异;施肥时,刈割没有或很少促进植株发生超补偿。超补偿发生时,资源贫瘠的条件可能是必需的。冷地早熟禾发生超补偿可能是以损耗地下部分的资源为代价的,刈割刺激分蘖的增加对超补偿的发生也有一定的贡献。     

Tillering responses to red:far-red light ratio during different phenological stages in Eragrostis curvula

Tillering responses to light quality in different phenological stages of a perennial warm-season grass Eragrostis curvula were investigated in controlled environments. In vegetative plants, the tillering rate was greater (P<0.01) in the high (1.1–1.3) than in the low (0.59–0.70) red:far-red ratio (R/FR) light regime. Tillering rates were higher in the low R/FR treatment when the plants in the high R/FR regime reached the reproductive stage, while the plants in the low R/FR regime remained vegetative. After the reproductive tillers were removed by defoliation, more tillers were produced in the defoliated plants grown in the high R/FR regime. When the plants in both light treatments entered the reproductive stage, the tillering rate under the two light regimes became similar, suggesting a significant interaction between tillering and inflorescence development. The more advanced inflorescence development in the high R/FR regime may have reduced assimilate availability to tiller growth and overshadowed the effect of high R/FR on tillering. Both tillering and inflorescence development appeared to be controlled by R/FR ratio. The higher rate of aerial tiller production on the reproductive culms during the post-anthesis period in the high R/FR regime suggested that high R/FR ratio stimulated not only basal tillering, but also aerial tillering.     

Tillering Responses of Lolium multiflorum Plants to Changes of Red/Far-Red Ratio Typical of Sparse Canopies

Casal, J. J., Sáchez, R. A. and Deregibus, V. A. 1987.Tillering responses of Lolium multiflorum plants to changesof red/far-red ratio typical of sparse canopies.—J. exp.Bot. 38: 1432–1439. Plants of Lolium multiflorum were grown either in growth roomsunder radiation sources providing equivalent PAR but differentR/FR ratios between 0·46 and 2·36, or under sunlightsupplemented with a series of small fluence rates of FR throughoutthe photoperiod. In both kinds of experiments a reduction oftillering was found along with small depressions of R/FR ratiobelow the values typical of sunlight. In this range both thesquare-root-transformed rate of tillering and the site-fillingrate were linearly related to the estimated phytochrome photo-equilibriaand the slope was very steep under conditions that allowed hightillering rates. The addition of low fluence rates of red lightat the base of the shoots raised tillering of plants exposedto low R/FR ratios to the level of plants grown under high R/FRratios in spite of the ratios received by the rest of the plant.Moreover, irradiation of plant bases with intermediate-low R/FRratios reduced tillering indicating that this would be one siteof perception. These results show a high sensitivity to changesof R/FR ratio typical of different degrees of shade in sparsecanopies. This suggests that by monitoring these changes Loliummultiflorum plants would be able to perceive an anticipatedsignal of impending competition in growing canopies.     

Phenotypic plasticity of sun and shade ecotypes of Stellaria longipes in response to light quality signaling: Cytokinins

From two distinct ecotypes of Stellaria longipes, one genotype was chosen from each of two very different locations, an alpine (sun) and a prairie (shade) habitat. Plants were clonally propagated and grown in controlled environment chambers under low and moderate red to far-red (R/FR) ratios. The prairie ecotype plants exhibited increased stem elongation, leaf expansion and flowering (6-fold) in response to a low R/FR ratio, relative to plants grown under the moderate R/FR ratio. In contrast, plants of the alpine ecotype showed no increased growth in response to a low R/FR ratio and their flowering was reduced, all relative to the plants grown under the moderate R/FR ratio. These different phenotypic responses to the reduction in R/FR ratio were associated with very different profiles and concentrations of endogenous cytokinins (CKs) assessed in growing tissues of the upper shoots. Specifically, increased total CKs were associated with the rapid growth of plants of the prairie ecotype under a low R/FR ratio. In particular, concentrations of bioactive trans-zeatin and dihydrozeatin, were increased during the period of most rapid shoot growth by 2- to 4- fold for these prairie ecotype plants grown under the low R/FR ratio treatment. In contrast, changes in CK levels for the alpine ecotype plants grown under low R/FR ratios were muted. Of especial interest, plants of the alpine ecotype had a predominance of cis-pathway CKs, whereas the low elevation, prairie ecotype plants accumulated predominantly trans-pathway CKs. Speculatively, the pattern emphasizing trans-pathway CKs may be explained by increased LONELY GUY enzyme activity. This enzyme converts and activates nucleotide CKs to free base CKs (bypassing riboside CKs). It could thus explain, in part, the prairie ecotype's ability to respond to shade light with such a high degree of plasticity if one assumes that high trans-CKs levels are causal for the increased shoot growth seen under a low R/FR ratio.     

Morphological plasticity ofFestuca rubra clones from three neighbouring communities in response to red: Far-red levels

Morphological parameters ofFestuca rubra clones and their response to differences in the red/far red ratio (R : FR) were investigated in a growth chamber experiment. The twenty-four clones tested came from 15 micro-sites in three neighbouring meadow communities in the Krkono?e Mts. (Czech Republic). The community types were characterized by different canopy height and structure, and by different radiation conditions (relative R : FR) within the canopies. Low R : FR treatment resulted in reduced tillering and stimulated shoot elongation in most of the clones. In some clones, low R : FR ratios stimulated extravaginal tillering and rhizome system formation. The origin of the clones (i.e., community type) explained a part of variation in morphological parameters, but did not explain variation in the response to R : FR levels. Evidence for a consistent relationship between clone performance and radiation environment in the micro-sites from where the clones originated was not found. It seems that there is only limited selection ofF. rubra clones (ecotypes) specialized for particular community types and no selection of clones specialized for particular micro-sites within communities.     

Variation in growth form in relation to spectral light quality (red/far-red ratio) in Plantago lanceolata L. in sun and shade populations

Plants from a sun and shade population were grown in two environments differing in the ratio of red to far-red light (R/FR ratio). A low R/FR ratio, simulating vegetation shade, promoted the formation of long, upright-growing leaves and allocation towards shoot growth, whereas a high R/FR ratio had the opposite effects. The increase in plant height under the low R/FR ratio was accompanied by a reduction in the number of leaves. Population differences in growth form resembled the differences between plants grown in different light environments: plants from the shade population had rosettes with long erect leaves, whereas plants from the sun population formed prostrate rosettes with short leaves. Plants from the shade population were more responsive to the R/FR ratio than plants from the sun population: the increases in leaf length, plant height, and leaf area ratio under a low R/FR ratio were larger in the shade population. However, differences in plasticity were small compared to the population difference in growth form itself. We argue that plants do not respond optimally to shading and that developmental constraints might have limited the evolution of an optimal response. Received: 8 December 1996 / Accepted: 31 March 1997     

Selected Components of the Shade-Avoidance Syndrome Are Displayed in a Normal Manner in Mutants of Arabidopsis thaliana and Brassica rapa Deficient in Phytochrome B

Several growth parameters associated with the phytochrome-mediated shade avoidance syndrome have been measured in seedlings and mature plants of a wild-type and a hy3 mutant of Arabidopsis thaliana deficient in phytochrome B. Growth parameters were compared in plants grown in either white light (high red:far-red [R:FR] ratio) or white light plus added far-red (FR) light (low R:FR ratio). Wild-type Arabidopsis exhibited increased hypocotyl and petiole extension under a low, compared with a high, R:FR ratio. The hy3 mutant did not respond to low R:FR ratio by increase in hypocotyl or petiole length. Extension growth of wild-type plants was stimulated by brief end-of-day FR pulses, but similar treatment had no effect on extension growth of hy3 mutant plants. However, some responses to low R:FR ratio seen in the wild-type plants were also evident in the hy3 mutants. The number of days to bolting, the developmental stage at bolting, the leaf area, and the specific stem weight (weight per unit of length) all decreased in the wild-type and hy3 seedlings in response to low R:FR ratio. Low R:FR ratio caused a larger decrease in leaf area and specific stem weight in the mutant seedlings than in wild-type seedlings. The effects of low R:FR ratio on leaf area and specific stem weight were opposite to those of the hy3 lesion, which resulted in increased leaf area and specific stem weight in comparison with the wild type. Both leaf area and specific stem weight responses to low R:FR ratio also were unchanged in the ein mutant of Brassica rapa, known to be deficient in phytochrome B. These responses represent components of the shade-avoidance syndrome, and, consequently, the results indicate that phytochrome B cannot be solely responsible for the perception of R:FR ratio and the induction of shade-avoidance responses. The hypothesis is proposed that different phytochromes may be responsible for the regulation of extension growth and the regulation of lateral or radial expansion.     

Interaction of red to far red light ratio and ethylene in regulating stem elongation of <Emphasis Type="Italic">Helianthus annuus</Emphasis>

Sunflower (Helianthus annuus L.) stems showed increased elongation under two types of vegetative shade: canopy shade (low red to far red [R/FR] ratio) and neighbouring proximity shade (FR enrichment). Hypocotyls also elongated more under narrow-band FR light than under narrow-band R light. Ethylene levels were determined in actively elongating 7-day-old hypocotyls and 17-day-old internodes under three R/FR ratios. Ethylene levels were lower in both sunflower hypocotyls and internodes when the R/FR ratio was reduced. Both FR enrichment of normal R/FR ratio and narrow-band FR light with very low light irradiance resulted in reduction in ethylene levels in 7-day-old hypocotyls. Further, in application experiments, sunflower stems grown under low R/FR ratio were more sensitive to ethephon and less sensitive to aminoethoxyvinylglycine (AVG) than stems grown under high R/FR ratio. Low R/FR ratio appears to initiate reduction in ethylene levels in sunflower seedlings, allowing maximum stem elongation. These results, and findings of other authors, suggest that various plant species may have developed different ways of regulating stem elongation and ethylene levels in response to low R/FR ratio.     

Maize leaves turn away from neighbors

In commercial crops, maize (Zea mays) plants are typically grown at a larger distance between rows (70 cm) than within the same row (16-23 cm). This rectangular arrangement creates a heterogeneous environment in which the plants receive higher red light (R) to far-red light (FR) ratios from the interrow spaces. In field crops, the hybrid Dekalb 696 (DK696) showed an increased proportion of leaves toward interrow spaces, whereas the experimental hybrid 980 (Exp980) retained random leaf orientation. Mirrors reflecting FR were placed close to isolated plants to simulate the presence of neighbors in the field. In addition, localized FR was applied to target leaves in a growth chamber. During their expansion, the leaves of DK696 turned away from the low R to FR ratio signals, whereas Exp980 leaves remained unaffected. On the contrary, tillering was reduced and plant height was increased by low R to FR ratios in Exp980 but not in DK696. Isolated plants preconditioned with low R/FR-simulating neighbors in a North-South row showed reduced mutual shading among leaves when the plants were actually grouped in North-South rows. These observations contradict the current view that phytochrome-mediated responses to low R/FR are a relic from wild conditions, detrimental for crop yield.     

不同红光/远红光比例(R/FR)的光照影响番茄幼苗叶片中花青素合成的研究

硫灯或氙灯具有不同的红光／远红光比例(R／FR,前者为1．5,而后者为1)。研究结果表明,硫灯照射下生长的番茄幼苗叶片与太阳光下相似,能正常合成花青素;而氙灯照光生长的番茄幼苗叶片中的花青素合成受到严重抑制,通过分光光度法测定的花青素含量仅为前者的1／9。进一步在硫灯下培养红光／远红光受体(光敏素B族)单突变和双突变的番茄幼苗中,发现单突变体phyB1和双突变体phyB1phyB2的叶片花青素含量显著低于野生型,分别为野生型的1／3和1／15,由此推测花青素合成途径受到了红光／远红光比例的影响。HPLC结果又表明,硫灯和氙灯照光生长的番茄幼苗叶片中黄酮醇总量没有显著差异。我们推测氙灯下番茄幼苗花青素合成过程可能抑制位点是二氢黄酮醇还原酶或白花色素双氧酶两个催化步骤。     

Uncoupling light quality from light irradiance effects in Helianthus annuus shoots: putative roles for plant hormones in leaf and internode growth

An attempt has been made to uncouple the effects of the two primary components of shade light, a reduced red to far-red (R/FR) ratio and low photosynthetically active radiation (PAR), on the elongation of the youngest internode of sunflower (Helianthus annuus) seedlings. Maximal internode growth (length and biomass) was induced by a shade light having a reduced R/FR ratio (0.85) under the low PAR of 157 micromol m(-2) s(-1). Reducing the R/FR ratio under normal PAR (421 micromol m(-2) s(-1)) gave similar growth trends, albeit with a reduced magnitude of the response. Leaf area growth showed a rather different pattern, with maximal growth occurring at the higher (normal) PAR of 421 micromol m(-2) s(-1)), but with variable effects being seen with changes in light quality. Reducing the R/FR ratio (by enrichment with FR) gave significant increases in gibberellin A(1) (GA(1)) and indole-3-acetic acid (IAA) contents in both internodes and leaves. By contrast, a lower PAR irradiance had no significant effect on GA(1) and IAA levels in internodes or leaves, but did increase the levels of other GAs, including two precursors of GA(1). Interestingly, both leaf and internode hormone content (GAs, IAA) are positively and significantly correlated with growth of the internode, as are leaf levels of abscisic acid (ABA). However, changes in these three hormones bear little relationship to leaf growth. By implication, then, the leaf may be the major source of GAs and IAA, at least, for the rapidly elongating internode. Several other hormones were also assessed in leaves for plants grown under varying R/FR ratios and PARs. Leaf ethylene production was not influenced by changes in R/FR ratio, but was significantly reduced under the normal (higher) PAR, the irradiance treatment which increased leaf growth. Levels of the growth-active free base and riboside cytokinins were significantly increased in leaves under a reduced R/FR ratio, but only at the higher (normal) PAR irradiance; other light quality treatments evoked no significant changes. Taken in toto, these results indicate that both components of shade light can influence the levels of a wide range of endogenous hormones in internodes and leaves while evoking increased internode elongation and biomass accumulation. However, it is light quality changes (FR enrichment) which are most closely tied to increased hormone content, and especially with increased GA and IAA levels. Finally, the increases seen in internode and leaf GA content with a reduced R/FR ratio are consistent with FR enrichment inducing an overall increase in sunflower seedling GA biosynthesis.