Effects of age and ontogeny on photosynthetic responses of a determinate annual plant to elevated CO2 concentrations

Plant responses to elevated CO₂ concentrations ([CO₂]) may be regulated by both accelerated ontogeny and allocational changes as plants grow. However, isolating ontogeny‐related effects from age‐related effects are difficult because these factors are often confounded. In this study, the roles of age and ontogeny in photosynthetic responses to elevated [CO₂] were examined on Xanthium strumarium L. grown at ambient (365 µmol mol^?1) and elevated (730 µmol mol^?1) [CO₂]. To examine age‐related effects, six cohorts were planted at 5‐day intervals. To examine ontogeny‐related effects, all plants were induced to flower at the same time; ontogeny in Xanthium is relatively unaffected by growth in elevated [CO₂]. Growth in elevated [CO₂] increased net photosynthetic rates by approximately 30% throughout vegetative growth (i.e. active carbohydrate sinks), approximately 10% during flowering (i.e. minimal sink activity), and approximately 20% during fruit production (i.e. active sinks). At the harvest, the ratio of source to sink tissue significantly decreased with increasing plant age and was correlated with leaf soluble sugar concentration. Leaf soluble sugar concentration was negatively correlated with the relative photosynthetic response to elevated [CO₂]. These results suggest that age and ontogeny independently affect photosynthetic responses to elevated [CO₂] and the effects are mediated by reversible changes in source : sink balance.     

苍耳等48种植物提取物的杀虫活性

采用浸虫法测定了48种植物的丙酮提取物对小菜蛾（Plutella xylostella L．）的杀虫活性,并研究了苍耳（Xanthium sibiricum Patrin．）不同溶剂提取物对小菜蛾和棉蚜（Aphis gossypii Glover）的触杀作用以及苍耳丙酮提取物不同溶剂萃取物对小菜蛾的触杀作用。结果表明,在供试的48种植物中,500g·L^-1黄花蒿（Artemisia annua L）、泽漆（Euphorbia helioscopia L．）、夏至草[Lagopsis supina（Steph．ex Willd．）Ik．-Gal．ex Knorr．]、苍耳及律草[Humulus scandens（Lour．）Merr．]的丙酮提取物对小菜蛾的杀虫活性较强。在苍耳的不同溶剂提取物中,苍耳丙酮提取物的杀虫活性最强,乙醇和乙酸乙酯提取物的杀虫活性次之。另外,50g·L^-1苍耳丙酮提取物的氯仿萃取物对小菜蛾的杀虫活性最强,24h和48h的校正死亡率分别为88．33％和91．67％。     

苍耳的一个新异名

将一室苍耳Xanthium sibiricum var. jingyuanense处理为苍耳Xanthium sibiricum的一个异名。     

三峡水库消落区4种一年生植物种子的水淹耐受性及水淹对其种子萌发的影响

稗(Echinochloa crusgalli)、苍耳(Xanthium sibiricum)、合萌(Aeschynomene indica)和水蓼(Polygonum hydropiper)是三峡水库消落区常见的4种一年生植物。该研究旨在验证这4种植物的种子能否耐受三峡水库消落区的水淹环境及种子在消落区变化的环境中能否成功地萌发。将消落区按照吴淞高程标准划分为9个高程梯度(145-150 m、150-155 m、155-160 m、160-163 m、163-166 m、166-169 m、169-172 m、172-175 m和>175 m), 实地播种这4种植物的种子(或果实), 并将种子萌发划分为“有泥沙淤积于种子表面”和“无泥沙淤积于种子表面” 2组。观察在消落区水位变化(蓄水到退水)一个周期内种子能否耐受水淹及水淹对不同高程种子萌发的影响。结果发现: (1)稗、苍耳、合萌和水蓼的成熟种子(或果实)能够耐受三峡水库消落区的水淹环境并保持活力。(2)这4种一年生植物种子的萌发起始时间和萌发持续时间都随着高程的降低而逐渐缩短(p < 0.01); 高程169 m以下, 种子萌发的起始时间显著缩短(p < 0.01)。总体来看, 在同一高程区域内, 合萌种子的萌发起始时间略长一些, 苍耳次之, 水蓼最短。(3)对稗、苍耳和水蓼的种子而言, 萌发率随高程的降低总体上呈现先上升后下降的趋势。合萌的种子萌发率随高程的降低总体呈下降的趋势。(4)水淹过程中产生的泥沙淤积对种子萌发影响较小, 但是在一定程度上可以促进苍耳的种子萌发而抑制合萌的种子萌发。以上试验结果表明: 这4种一年生植物的种子(或果实)在三峡水库消落区变化环境中能够耐受水淹并成功地萌发, 可应用于三峡水库消落区的植被恢复和生态重建中。     

外来入侵植物意大利苍耳的传粉生态学特性

从开花物候、花粉活力、柱头可受性、传粉媒介、花粉散布距离、雄性、雌性功能以及繁育系统等方面系统地研究了意大利苍耳的传粉生态学特性,旨在为揭示该物种成功入侵的机理提供科学依据。研究结果显示:意大利苍耳种群的花期较长,雌花花期可达40d,雄花花期可达30d。其雄性和雌性功能都很强,意大利苍耳单株雄花序和花粉量分别高达3847个/株和37903037粒/株,单株雌花序和单株胚珠数高达3847个/株和7694枚/株,种群平均结实率高达80.59%,即平均每株个体能形成6200枚成熟的果实。花粉活力的日变化呈单峰型曲线,早晨和傍晚的花粉活力最低,14:00时的活力高达99%。雌蕊柱头一经伸出总苞即具有可受性,可受期长达7d,开花后的3—4d柱头的可受性最强。意大利苍耳为风媒传粉植物,在4.5km/h的微风条件下,其花粉的散布距离可达45m,大量的花粉集中分布在距花粉源0—20m的范围内,这对于往往高密度连片分布的意大利苍耳种群来说无疑是一种高效的传粉策略。意大利苍耳的交配系统灵活多样,盛花期自然结实率达到100%,套袋试验结果表明该植物自交亲和,自株自然授粉的结实率高达93%。表明较长的花期、大量的雌雄花序及花粉数量、较高的花粉活力、较长的柱头可授期、较远的花粉风媒散布距离、混合交配系统、以及较高的结实率是意大利苍耳繁殖成功的重要保障,也是其成功入侵的重要原因。     

Leaf nitrogen distribution in relation to leaf age and photon flux density in dominant and subordinate plants in dense stands of a dicotyledonous herb

We studied the effects of photon flux density (PFD) and leaf position, a measure of developmental age, on the distribution of nitrogen content per unit leaf area (N _area) in plants of different heights, in dense stands grown at two nitrogen availabilities and in solitary plants of the erect dicotyledonous herb Xanthium canadense. Taller more dominant plants received higher PFD levels and experienced a larger difference in relative PFD between their youngest and oldest leaves than shorter subordinate plants in the stands. Differences in PFD between leaves of solitary plants were assumed to be minimal and differences in leaf traits, found for these plants, could thus be mainly attributed to an effect of leaf position. In the solitary plants, N _area decreased with leaf position while in the plants from the stands it decreased with decreasing relative PFD, indicating both factors to be important in determining the distribution of N _area. Due to the effect of leaf position on N _area, leaves of subordinate plants had a higher N _area than older leaves of dominant plants which were at the same height or slightly higher in the canopy. Consequently, the N _area distribution patterns of individual plants plotted as a function of relative PFD were steeper, and probably closer to the optimal distribution which maximizes photosynthesis, than the average distribution in the stand. Leaves of subordinate plants had a lower mass per unit area (LMA) than those of dominant plants. In the dominant plants, LMA decreased with decreasing relative PFD (and with leaf position) while in the subordinate plants it increased. This surprising result for the subordinate plants can be explained by the fact that, during the course of a growing season, these plants became increasingly shaded and newer leaves were thus formed at progressively lower light availability. This indicates that LMA was strongly determined by the relative PFD at leaf formation and to a lesser extent by the current PFD. Leaf N content per unit mass (N _mass) was strongly determined by leaf position independent of relative PFD. This indicates that N _mass is strongly ontogenetically related to the leaf-aging process while changes in N _area, in response to PFD, were regulated through changes in LMA. Received: 11 May 1997 / Accepted: 9 September 1997     

α-Aminoisabutyric acid, propyl gallate and cobalt ion and the mode of inhibition of ethylene production by cotyledonary segments of cocklebur seeds

Using cotyledonary segments of cocklebur ( Xanthium pennsylvanicum Wallr. ) seeds, the inhibitory effect of α-aminoisobutyric acid (AIB) on ethylene production was compared with that of propyl gallate and CoCl₂. Of these inhibitors only AIB was effective in causing the accumulation of endogenous free 1-aminocyclopropane-l-carboxylic acid (ACC) in the tissue. The degree of inhibition of ethylene production by AIB decreased markedly with increasing concentrations of pre-loaded ACC, while the inhibition by propyl gallate and CoCl₂ changed little. Kinetic analysis showed that AIB competitively inhibited the conversion of pre-loaded ACC to ethylene, but propyl gallate and CoC_l2 did not. Short-chain organic acids and analogues of AIB, such as acetic, propionic, butyric and cyclopropanecarboxylic acids, did not inhibit ethylene production by the segments. Thus, additional support for the competitive mode of inhibitory action of AIB on the conversion of free ACC to ethylene was provided.
A conjugated hydrolysable ACC was found to be present in abundance in cotyledons of this seed. However, its content in the tissue was hardly affected by treatment with the three inhibitors and by administration of exogenous ACC, suggesting that the conjugated ACC was not directly involved in ethylene production.     

Effects of α-aminoisobutyric acid and D- and L-amino acids on ethylene production and content of 1-aminocyclopropane-1-carboxylic acid in cotyledonary segments of cocklebur seeds

In the cotyuledonary tissue of cocklebur ( Xanthium pennsylvanicum Wallr.) seeds, AIB (α- aminoisobutyric acid) inhibited not only the endogenous ethylene production but also the ACC (1-aminocyclopropane-1-carboxylic acid)-dependent and IAA-induced ones. The inhibition of the endogenous ethylene production by AIB was accompanied by the accumulation of ACC in the tissue. Thus AIB may act as a competitive inhibitor of the conversion of ACC to ethylene and thereby inhibit ethylene production. The promotion of ethylene production by D-isomers of some amino acids, such as phenylalanine, valine, threonine and methionine was accompained by and increse in the ACC content, the degree of which was similar to that of the stimulation of ethylene production. Moreover, these D-amino acids stimulated the conversion of exogenously applied ACC to ethylene. The corresponding L-isomers failed to produce these effects. It seems likely that D-amino-acid-stimulated ethylene production results from the increases of both the biosynthesis and degradation of ACC. Only for tryptophan did both D- and L-isomers cause an increase in ethylene production and in ACC content in the segments. The mechanism of stimulation of ethylene production by the tryptophen isomers is possibly due to their conversion to IAA in the cotyledonary tissue.     

Systematic implications of the sesquiterpene lactones in the “strumarium” morphological complex (Xanthium strumarium, Asteraceae) of Europe, Asia and Africa

In most populations of the “strumarium” morphological complex of Xanthium strumarium L. (sensu lato) in northern Europe and in India, a new compound, xanthinosin, is the only detectable sesquiterpene lactone. In populations of this morphological complex in Portugal and Egypt as well as in eastern Asia, USSR, Korea, Hong Kong and Taiwan, xanthinin and xanthatin occur as major constituents along with xanthinosin. Experimental F, hybrids between pistillate Indian plants which contained only xanthinosin and staminate plants from Hong Kong which contained a mixture of xanthinin, xanthatin and xanthinosin produced a mixture of compounds in which the percentage of xanthinin increased relative to its percentage in the Hong Kong parent. The sesquiterpenoid data suggest that the various taxa in the “strumarium” morphological complex can be divided into three groups: (a) X. strumarium (sensu stricto) and X. indicum König, containing primarily or exclusively xanthinosin; (b) X. sibiricum Patrin and X. brasilicum Vell., with xanthinin and xanthinosin predominating; and (c) X. inaequilaterum DC., with almost equal proportions of xanthinin, xanthatin and xanthinosin. Two other taxa of the complex. X. japonicum Widd. and X. abyssinicum Wallr., were not available for inclusion in the present study.     

The effect of high levels of carbon dioxide on dark respiration and growth of plants

Abstract Raising ambient levels of CO₂ during the night, between 350 and 950cm³m^?3, reduced the dark respiration rate of Medicago sativum seedlings. The percentage effect was greater for maintenance respiration than for dark respiration as a whole, and when the plants were in a low photosynthate status. Twenty-four h carbon balance studies confirmed a reduction in night time respiration and an increase of net carbon gain when night time [CO₂] was high. Growth experiments showed a small but significant increase of dry weight in Medicago sativum seedlings exposed to high [CO₂] (～ 1200 cm³m^?3) at night. This effect was greater for plants grown with Rhizobium nodules than for plants grown with nitrate in the absence of Rhizobium. A similar, but smaller and statistically non-significant effect of high night time [CO₂] on growth was found for Xanthium strumarium seedlings. The significance of these findings is discussed in relation to the rising CO₂ content of the atmosphere.