入侵植物筛选方法在我国口岸防控中的应用建议

入侵植物是生物入侵中数量最多的类群,给全世界造成了重大的经济和环境影响。植物入侵的预测研究是口岸防控工作中的重要技术环节之一。本文介绍了入侵植物筛选方法的概念,简述了与之相关的基础理论、研究情况以及3种植物入侵的预测方法。综合来看,入侵植物筛选方法主要采用植物自身的生物生态学特性作为评估指标来筛选外来植物,能快速可靠地将外来植物评判为严重入侵植物、非入侵植物以及介于二者之间的一般入侵植物,因此该方法能为我国口岸防范外来植物入侵的管理提供基础技术支撑。当前我国入侵植物筛选方法的研究和应用尚处起步阶段,通过本文的简述期望引起相关人员对此问题进行探讨,并为我国口岸入侵植物防控工作提供理论参考。     

Effects of insect-vector preference for healthy or infected plants on pathogen spread: insights from a model

Insects vector many plant pathogens and often have higher or lower densities on infected plants than on healthy plants. Two hypotheses may explain this observation: insects may preferentially orient toward and select one plant type (referred to as orientation preference) or insects may reside on infected plants for longer or shorter periods than on healthy plants (referred to as feeding preference). The effects of feeding preference and orientation preference were compared alone and in combination using a spatially explicit model. With feeding preference for healthy or infected plants, the qualitative relationship between the percentage of plants infected and the rate of pathogen spread was not affected. However, feeding preference for healthy plants increased rates of pathogen spread, whereas feeding preference for infected plants decreased rates of pathogen spread. Unlike feeding preference, orientation preference for healthy and infected plants produced qualitatively different relationships between the percentage of plants infected and the rate of pathogen spread. With orientation preference for healthy plants, the pathogen spread slowly when few plants were infected, but quickly once most plants were infected. In contrast, with orientation preference for infected plants, the pathogen spread quickly when few plants were infected, but slowly once most plants were infected. In sensitivity analyses, we found that assumptions about the latent period (time between infection and when insects can recognize a plant as being infected) and persistence (length of time an insect remains inoculative) altered the aforementioned effects in some cases. The results illustrate that feeding and orientation preference affect pathogen spread differently, highlighting the importance of elucidating the mechanisms that control vector preference for healthy versus infected plants.     

浙江瑞安红双林场植物资源及其利用前景

浙江瑞安红双林场共有维管植物167科538属1055种,其中已知有一定利用价值的资源植物715种,隶属于157科429属。按其性质和用途可分为材用植物、药用植物、油脂植物、纤维植物、淀粉植物、食用植物、芳香植物、栲胶植物、保健饮料植物、牧草及饲料植物、保护与改造环境植物、观赏植物、土农药植物、蜜源植物等14类,其中药用植物种类最为丰富。以常见药用植物234种为例,根据植物资源可利用量估量法估量当地植物资源利用前景,结果表明,其中46.2%的常见药用植物可利用量估量值在12以上,可供开发利用。文后提出红双林场植物资源保护与利用建议。     

大陆性海岛野生植物功能性状特征及其演变趋势——以平潭岛为例

探讨海岛植物功能性状的演变机制,对福州市平潭岛和福州国家森林公园的野生植物功能性状进行了比较。结果表明,平潭岛和公园植物的共有科占总科数的63%,共有种占总种数的19%。海岛植物为适应强风、干旱、贫瘠的环境,以草本植物为主,占65.75%。海岛植物的叶级明显小于大陆植物,叶被毛植物占62.39%,并呈木质化和肉质化特征。海岛植物的繁殖能力提高,海岛植物花期长于大陆,以r-繁殖策略为主。海岛植物的传播能力提高,颖果和瘦果比例高于大陆植物,而核果和浆果比例相反;微型果为79.20%,以风力和蚁类传播为主。总体而言,大陆性海岛与大陆野生植物具有相同起源,海岛植物为适应脆弱的生态环境,其适应-繁殖-传播相关的功能性状发生演变,呈现出适应能力增强、繁殖和传播能力提高的特点。     

Interactive effects of lateral shade and wind on stem allometry, biomass allocation, and mechanical stability in Abutilon theophrasti (Malvaceae)

The effects of lateral shade and wind on stem allometry, whole-plant biomass allocation, and mechanical stability were examined for Abutilon theophrasti in a fully factorial glasshouse experiment. Lateral shade from neighboring plants increased stem height by 33% relative to control plants grown individually, despite a decrease in plant dry mass. Intermittent wind decreased stem height by 18% in unshaded plants, but by only 3% in shaded plants. Surprisingly, both lateral shade and wind caused decreases in stem diameter, even with diameter controlled for height, resulting in low diameter?:?height ratios in wind-treated plants relative to untreated plants. Under shade, wind-treated plants had higher root allocation than untreated plants, which allowed wind-treated shade plants to compensate for a low diameter?:?height ratio. This did not occur in the absence of shade, where stem tissue density and root allocation of wind-treated plants did not exceed that of untreated plants. Nevertheless, wind-treated plants experienced low drag relative to untreated plants due to a lower leaf area. Consequently, stem deflections of wind-treated plants did not exceed those of untreated plants at any given windspeed. Our results document a complex interaction between shade and wind on plant morphology and suggest that the nature of this interaction is generally that lateral shade acts to reduce or eliminate thigmomorphogenic responses.     

新疆巩乃斯沟药用植物资源多样性研究

从数量、生活型、药用部位等方面对巩乃斯沟药用植物多样性进行了研究。巩乃斯沟的药用植物资源具有丰富的多样性,共有野生药用植物54科260多种,分别占伊犁河谷地区药用植物科、种数的54.54%和46.34%。其中珍稀濒危药用种子植物21种,新疆道地药材8种,蒙医药地道药材38种;多年生草本类型占该区药用种子植物总数的70%以上;全草类和根类药用植物最多,分别占该区药用种子植物总数的50.84%和21.40%,大多数种类属于北温带分布区类型;优势科主要有菊科、蔷薇科、毛茛科和豆科,优势属主要有蒿属,毛茛属和委陵菜属。本文提出了保护和开发利用的具体建议。     

Expression of heterologous genes in plant systems: New possibilities

The basic methods used in current practice for stable and transient expression of heterologous genes in plants are presented and compared. The key areas of research in the heterologous expression of genes in plants have been identified by analyzing literature and experimental data: modeling of metabolic pathways; creation of marker-free transgenic plants; the search for new regulatory elements and plant genes influencing the efficiency of expression of heterologous genes in plants; development of new methods for analyzing of transgenic plants and new approaches to the expression of heterologous genes in plants.     

宁波北仑植物资源及珍稀保护植物研究

宁波市北仑区蕴藏着丰富的植物资源,据调查有野生维管植物158科454属712种,在这些植物中,有药用植物276种、用材树种95种、观赏植物87种、纤维植物60种、防护植物55种、薪炭植物52种、油脂植物48种、饲料植物42种、野生水果38种、芳香植物30种、淀粉植物25种、蜜源植物24种、野菜植物18种等,大多具有开发和可持续利用的价值;此外,北仑还有国家野生重点保护植物4科5属5种、古树名木15科17属17种,这些植物对开发建设中的北仑来说,是极其宝贵的自然资源.因此,为使北仑区的植物资源得到可持续的利用,对其开发利用和保护提出了建议.     

观赏植物花期调控途径及其分子机制

开花期控制对观赏植物的生产和应用具有重要意义。目前关于高等植物成花机理的研究已经取得了突破性进展,为观赏植物花期调控开辟了新途径。该文总结了观赏植物花期调控的途径和方法,并对改良观赏植物花期的技术思路做了初步分析。通过与高等植物成花机制研究的对比分析发现,观赏植物开花机理的研究已有了长足发展,一些观赏植物的转基因研究也取得了丰硕成果。利用分子设计育种途径改良观赏植物的开花期,突破了传统方法的局限性,其研究和应用前景非常广阔。     

Anticholinesterase and mutagenic evaluation of in vitro-regenerated Agapanthus praecox grown ex vitro

Beyond establishing micropropagation protocols for medicinal plants, it is important that the efficacy and safety of propagated plants be ascertained for these plants to be accepted for use in traditional medicine. The use of propagated plants could alleviate/reduce over-exploitation of wild populations. The present study evaluated the anticholinesterase and mutagenic properties of 1-yr-old tissue culture-derived Agapanthus praecox grown ex vitro and naturally grown mother plants. The tissue culture-derived plants were regenerated using different plant growth regulators. A dose-dependent inhibition of acetylcholinesterase (AChE) enzyme was observed in all the tissue culture-derived and naturally grown mother plants. The leaf extract of tissue culture-derived plants regenerated with a combination of benzyladenine (BA) and thidiazuron (TDZ) demonstrated a significantly low AChE-inhibitory activity. Conversely, the root extract of plants regenerated with BA alone demonstrated the highest AChE-inhibition activity (IC₅₀ = 0.20 mg/mL) when compared to extracts from other treatments and the naturally grown mother plants. None of the samples were found to be mutagenic in the absence of metabolic activation. The present study indicated that regenerated plants could be used as potent substitutes for naturally grown plants in traditional medicine. However, the choice of treatment used during micropropagation operation may significantly influence the therapeutic potential of regenerated plants, even after 1 yr of growth.     

Exotic vertebrate and invertebrate herbivores differ in their impacts on native and exotic plants: a meta-analysis

Herbivores modify various ecological processes including interactions between native and exotic plants that may affect invasion success by the exotic plants. It is unknown whether different types of exotic herbivores have similar effects on native and exotic plants. Using two distinct data sets, we ran meta-analyses to compare exotic vertebrate and invertebrate herbivore preferences for, and effects on performance and population sizes of native and exotic plants. We found that exotic vertebrate herbivores have positive effects on exotic plant performance and population sizes, and no significant effects on native plants. Exotic invertebrates have significant negative effects on performance and population sizes of both exotic and native plants. Vertebrates prefer to feed on native plants relative to exotic plants, while invertebrates prefer the exotic plants to native plants. Thus the exotic vertebrate herbivores may aid invasiveness of exotic plants, in accordance with the invasional meltdown hypothesis, while exotic invertebrate herbivores probably have no net effect on invasion process of the exotic plants. Invertebrate herbivore preferences for exotic plants support the biotic resistance hypothesis, as the native plants probably resist the invertebrate herbivory. We also tested an evolutionary logic that posits that herbivores with similar evolutionary history as plants will affect the plants less negatively than plants with which they have not co-evolved. Our results indicate that there is no consistent pattern in effects of exotic vertebrate and invertebrate herbivores on exotic plants with or without which they have co-evolved.     

华东地区归化植物的组成特征、引入时间及时空分布

归化是入侵的前期阶段, 对归化植物的深入研究是科学管理外来物种的基本前提, 有助于预防外来植物造成入侵危害, 区域性归化植物的研究对地方外来植物的管理与防治对策的制定具有重要的指导意义。本文基于文献报道、标本信息和分类学考证, 特别是于2014-2019年对华东地区(安徽省、福建省、江苏省、江西省、山东省、上海市和浙江省)归化植物的全面调查, 统计分析了华东地区归化植物的物种组成和分布格局, 并对其首次引入(或发现)地、引入时间和引入途径进行综合分析。结果表明, 华东地区有归化植物62科181属299种, 总体上呈现种类丰富、以草本植物为主、原产于美洲的种类多、引入途径集中等特征。在空间尺度上, 福建省的物种多样性明显高于其他省市, 且仅分布于该省的种类也最多(达57种, 占总种数的19.1%), 其他省市之间则差别不大。对外交流程度和原产地与归化地之间的气候相似性可能是影响归化植物多样性和空间分布格局的主要因素。在时间尺度上, 1850年之后, 华东地区的归化植物呈现出指数增长的趋势, 增长速率达1.5种/年, 且当前正处于快速增长阶段; 21世纪以来, 80%以上的归化植物来自于无意引入的物种, 这提示我们需要对此特别关注。华东地区作为对外交流的重要区域, 面临着外来植物输入以及归化并造成入侵的双重压力, 因此需对该地区的热点地区如口岸、港口等地加强出入境监管, 同时构建一套行之有效的外来植物风险评估体系, 这是开展外来物种风险管理的基础, 也是预防外来物种入侵的有效手段之一。     

Correlation but no causation between leaf nitrogen and maximum assimilation: the role of drought and reproduction in gas exchange in an understory tropical plant Miconia ciliata (Melastomataceae)

Alternative hypotheses were tested to explain a previously reported anomaly in the response of leaf photosynthetic capacity at light saturation (A(max)) in Miconia ciliata to dry-season irrigation. The anomaly is characterized by an abrupt increase in leaf A(max) for nonirrigated plants at the onset of the rainy season to values that significantly exceeded corresponding measurements for plants that were irrigated during the previous dry season. Hypothesis 1 posits that a pulse in leaf nitrogen increases CO(2) assimilation in nonirrigated plants at the onset of the wet season and is dampened for irrigated plants; this hypothesis was rejected because, although a wet-season nitrogen pulse did occur, it was identical for both irrigated and nonirrigated plants and was preceded by the increase in assimilation by nonirrigated plants. Hypothesis 2 posits that a reproduction-related, compensatory photosynthetic response occurs in nonirrigated plants following the onset of the wet season and is dampened in irrigated plants; consistent with hypothesis 2, high maximum assimilation rates for control plants in the wet season were significantly correlated with fruiting and flowering, whereas irrigation caused flowering and fruiting in the dry season, spreading M. ciliata reproductive activity in irrigated plants across the entire year.     

Costs of glandular trichomes in Datura wrightii: a three-year study

Models accounting for genetic variation for resistance to herbivores within plant populations often postulate a balance between the costs of that resistance and its benefits. The production of glandular trichomes by Datura wrightii was shown to be costly in a previous one-year study because plants producing glandular trichomes (sticky plants), a factor conferring resistance to some insect herbivores, also produced 45% fewer seeds than plants producing nonglandular trichomes (velvety plants) when grown in a common garden. Because sticky plants tended to be larger than velvety plants but produced fewer seed capsules, we postulated an allocation trade-off in which velvety plants are more reproduction-dominated whereas sticky plants are more growth-dominated. If a greater commitment to vegetative growth eventually allows sticky plants to compensate for reduced seed production, we would expect a reduction or elimination of the cost of resistance over time in this perennial plant. We monitored growth, survival, and seed production of plants from defined crosses of local populations for three years in a common garden when exposed to and protected from herbivores, and with and without supplemental water. The majority of plants exposed to herbivores had died by the end of the study. We used standard life-table methods to determine the net reproductive rate (R0) and the finite rate of increase (lambda) of plants of each trichome type. After three years, when plants were protected from herbivores, sticky plants were 187-245% larger than velvety plants, depending upon irrigation treatment, but sticky plants continued to be less efficient in producing seeds per unit of canopy volume. Even though the total seed production of sticky plants eventually equaled that of velvety plants, the advantage of earlier reproduction by velvety plants increased lambda by 55-230% over that of sticky plants, depending upon herbivore and irrigation treatment. Exposure to herbivores reduced lambda by 69-83%, depending upon plant type and irrigation treatment, whereas supplemental irrigation increased lambda by 29-175%, depending upon plant type and exposure to herbivores. Although there was a large allocation trade-off between growth and reproduction, the benefits of such a trade-off did not emerge before most plants were killed by herbivores. The cost of producing glandular trichomes strictly for herbivore resistance continued to exceed its benefits, and in the absence of other, unmeasured benefits from the suite of life-history characters associated with glandular trichome production, natural selection is expected to eliminate this costly resistance trait from D. wrightii populations.     

Either soluble or plastidic expression of recombinant protoporphyrinogen oxidase modulates tetrapyrrole biosynthesis and photosynthetic efficiency in transgenic rice

Protoporphyrinogen oxidase (Protox) is the last shared enzyme of the porphyrin pathway. As a continuation of our previous work in which the transgenic rice plants expressing the Bacillus subtilis Protox in the cytoplasm or the plastid showed resistance to diphenyl ether herbicide, this study was undertaken to identify the effects of tertapyrrole biosynthesis in these transgenic rice plants. The transgenic plants either targeted into plastids or expressed in cytoplasm showed higher Protox activity than wild-type plants did. Photosynthetic activity, measured as a quantum yield of photosystem II, was slightly higher in transgenic plants than in wild-type plants, but chlorophyll contents were not significantly different between transgenic and wild-type plants. As for porphyrin biosynthesis, both cytoplasm-expressed and plastid-targeted transgenic plants showed increased synthesis of aminolevulinic acid, Mg-Proto IX, and protoheme in comparison to wild-type plants whereas synthesis of protoporphyrin IX was similar for wild-type and transgenic plants. These results indicate that either cytoplasm or plastid expression of B. subtilis Protox in rice can upregulate the porphyrin pathway leading to increase in photosynthetic efficiency in plants.     

Flooding influences ovipositional and feeding behavior of the rice water weevil (Coleoptera: Curculionidae)

The rice water weevil, Lissorhoptrus oryzophilus Kuschel, is the most destructive insect pest of rice in the United States. As part of an effort to develop strategies to manage this pest, the ovipositional and feeding habits of L. oryzophilus on rice plants subjected to different flooding treatments were characterized in greenhouse studies. Presence and depth of flood had a direct influence on the ovipositional behavior of weevils in no-choice studies. More eggs were found in flooded plants than in unflooded plants. Moreover, plants flooded to a depth of 5.1 cm received more eggs than plants flooded to depths of 1.3 or 10.2 cm. Presence and depth of flood influenced both the proportion of females that oviposited in plants and the number of eggs laid by those females that did oviposit. In choice studies, female weevils showed a marked ovipositional preference for plants flooded to a depth of 10.2 cm over unflooded plants and plants flooded to a depth of 1.3 cm. In separate choice experiments, adult rice water weevils fed more on flooded plants than on unflooded plants. In a third set of experiments, flooded plants were taller and had higher concentrations of 10 of 13 plant nutrients than unflooded plants. Thus, flooding may influence rice water weevil behavior both directly, by acting as a stimulus for feeding or oviposition, and indirectly, by inducing changes in the suitability of rice plants for feeding or oviposition. These data suggest that it may be possible to manipulate populations of weevils in rice by changing water management practices.     

Characterization of oxidative enzyme changes in buffalograsses challenged by Blissus occiduus

This research investigated the role of oxidative enzymes in the defense response of buffalograss, Buchlo? dactyloides (Nuttall) Engelmann, to Blissus occiduus Barber. Changes in catalase and peroxidase activity were observed in both resistant and susceptible buffalograsses in response to chinch bug feeding. Susceptible plants were shown to have a lower level of catalase activity compared with their respective control plants. By contrast, catalase activities of resistant plants were similar between infested and control buffalograsses throughout the study. Resistant plants had higher levels of peroxidase activity compared with their control plants, whereas peroxidase activities for control and infested susceptible plants remained at similar levels or were slightly lower for infested plants. These findings suggest that chinch bug feeding leads to a loss in catalase activity in susceptible buffalograsses. In contrast, resistant buffalograsses may be able to tolerate chinch bug feeding by increasing their peroxidase activity. Polyphenol oxidase activities were similar between control and infested plants for the buffalograsses evaluated. Among the enzymes examined, no differences in isozyme profiles for peroxidase and polyphenol oxidase were detected between control and infested 378, NE91-118, Cody, and Tatanka plants. Gels stained for catalase identified differences in the isozyme profiles of infested and uninfested 378 plants; however, infested and control NE91-118, Tatanka, and Cody plants has similar isozyme profiles. No differences in protein profiles were observed between chinch buginfested 378, NE91-118, Cody, and Tatanka plants and their respective uninfested controls.     

Modulating flowering time and prevention of pod shatter in oilseed rape

Floral induction is a key developmental switch in plants that leads to the production of flowers, fruits and seeds, which are of paramount importance for human life. To meet the demands of several crop harvests per year, or the growth of crop plants in regions with short vegetation times and for the production of ornamental plants, the timing of the floral transition is very important. The discovery of genes that are involved in flowering time control in model plants should allow the modulation of this developmental switch also in plants with economic value. By using a transgenic approach, we showed that a single MADS box gene accelerated flowering and seed ripening in summer rape plants. The MADSB transgene also partially substituted for the strict temperature requirements for flowering in winter rape plants. Transgenic winter rape plants expressing the MADSB transgene also produced more rigid siliques than wild type winter rape plants, and this prevented precocious seed dispersal.     

Ecophysiological traits of terrestrial and aquatic carnivorous plants: are the costs and benefits the same?

Identification of tradeoffs among physiological and morphological traits and their use in cost–benefit models and ecological or evolutionary optimization arguments have been hallmarks of ecological analysis for at least 50 years. Carnivorous plants are model systems for studying a wide range of ecophysiological and ecological processes and the application of a cost–benefit model for the evolution of carnivory by plants has provided many novel insights into trait‐based cost–benefit models. Central to the cost–benefit model for the evolution of botanical carnivory is the relationship between nutrients and photosynthesis; of primary interest is how carnivorous plants efficiently obtain scarce nutrients that are supplied primarily in organic form as prey, digest and mineralize them so that they can be readily used, and allocate them to immediate versus future needs. Most carnivorous plants are terrestrial – they are rooted in sandy or peaty wetland soils – and most studies of cost–benefit tradeoffs in carnivorous plants are based on terrestrial carnivorous plants. However approximately 10% of carnivorous plants are unrooted aquatic plants. Here we ask whether the cost–benefit model applies equally well to aquatic carnivorous plants and what general insights into tradeoff models are gained by this comparison. Nutrient limitation is more pronounced in terrestrial carnivorous plants, which also have much lower growth rates and much higher ratios of dark respiration to photosynthetic rates than aquatic carnivorous plants. Phylogenetic constraints on ecophysiological tradeoffs among carnivorous plants remain unexplored. Despite differences in detail, the general cost–benefit framework continues to be of great utility in understanding the evolutionary ecology of carnivorous plants. We provide a research agenda that if implemented would further our understanding of ecophysiological tradeoffs in carnivorous plants and also would provide broader insights into similarities and differences between aquatic and terrestrial plants of all types.     

药用植物微生物组及其与药用植物次生代谢产物的关系

药用植物是中药的原料,是中药产业的源头,其生长发育受遗传和环境等诸多因素的影响。以往研究强调植物基因型及生态因子对药用植物产量和品质的影响。近几年,随着人类微生物组研究的推进,植物微生物组作为植物整体的重要组成部分在药用植物的生长发育、品质形成甚至药效等方面的作用也日益受到重视,有关植物微生物组的多样性,微生物组在植物生长发育中的作用已有较详细的综述,而有关药用植物微生物组及其与药用植物次生代谢产物间关系的综述较少。本文重点总结了自2010年以来药用植物微生物组的研究进展,包括药用植物微生物组物种组成、功能及其与药用植物次生代谢产物产生的关系等,并对其在药用植物提质增效及其生态种植中的潜在应用进行了展望。