植物硒素营养及其机理研究进展

土壤生境中Se的丰缺对植物的Se素营养有重要的影响。本文阐述了植物对Se的吸收,积累和运移过程,概述了Se对植物的毒性,对植物产量和品质影响及其机理研究的进展,在此基础上,提出以研究Se对土壤酶活性影响来解释Se对植物的必要性的新途径。     

营养因子调控脑缺血后内源性神经发生的研究进展

目前成年神经发生的调节机制及其在脑缺血后功能修复中的作用尚不清楚,研究表明神经发生受体内外多种信号分子的调控,许多内源性营养因子影响脑缺血后神经干细胞的增殖、迁移和分化.本文就多种营养因子对脑缺血后内源性神经发生的调控研究进展和存在的问题作一综述.     

增强的UV-B辐射和其它因子的相互作用对植物的影响

全球变化中的平流层臭氧层耗损引起到达地球表面的紫外线-B(280～320 nm)辐射的增强,给人类健康,动物、植物、微生物的生命活动,生物地化循环,材料及大气质量等带来重大影响[1]。因此,近30年来,平流层臭氧层减薄和UV-B辐射增强对植物影响的问题引起人们的关注,并进行了大量的研究[1～4]。我国在这方面的研究刚刚起步[5]。但是,针对UV-B辐射增强和其它非生物因子如CO2浓度升高、全球变暖、干旱、矿质营养亏缺和空气污染物等的复合作用对植物生长、发育、繁殖及生态系统影响的研究较少[1～3]。在自然界,各种环境因子常常是相互作用共同影响植物及生态系统,因此,仅研究单因子的作用很难正确评估由于全球变化而产生的种种生物学和生态学效应[1,2]。本文就近年来关于UV-B辐射增强和其它非生物因子的复合作用对植物影响的研究进展作一介绍,并对其发展前景作了展望。1 UV-B辐射与矿质营养     

增铵营养对小麦氮及矿质营养含量和积累的影响

1　引　　言增铵营养 (ＥＡＮ)即混合形态Ｎ营养 ,是相对于单一ＮＯ-3 营养而提出的旱地作物Ｎ营养的新方法 .旱地作物在ＮＯ-3 营养下生长优于ＮＨ+ 4 营养[6] ,但在增铵营养下小麦等旱地作物的干物质积累和产量显著高于两种单一形态Ｎ营养[1～ 3 ,5,7] .同时 ,我们的研究表明 ,增铵营养对小麦生长的促进效应具有明显的基因型差异[3 ] ,但其生理基础尚不明确 .由于植株对两种形态Ｎ的吸收和积累也影响对其它无机离子的吸收 ,因此 ,在增铵营养下 ,不同小麦基因型对Ｎ及Ｐ、Ｋ、Ｃａ、Ｍｇ等营养元素的吸收和积累也会存在差异 ,可能影响小麦…     

植物入侵对食物网的影响及其途径

生态系统中的物质和能量主要沿食物链在食物网中流通,诸多研究表明入侵植物对生态系统功能的影响是通过改变当地原有的食物网结构而实现的,因此外来植物入侵对食物网的影响受到人们越来越多的关注.本文分析了植物入侵引起食物网变化的原因以及改变食物网的途径,探讨了土著食物网特点对群落可入侵性的影响,得出以下结论:(1)食物网的变化主要是由于入侵植物引起的消费者基础食物资源或者周围环境条件的变化造成的;(2)入侵植物通过3种途径影响食物网:一是入侵植物具有较好的可利用性,能够直接被土著草食者取食,通过上行效应按照原有的路径进入土著食物网;二是当入侵植物的可利用性较差时,入侵植物所固定的能量通过引入新的消费者或者转变流通路径形成新的食物网结构;三是入侵植物通过非营养作用造成食物网中各级消费者的种群密度和行为活动等发生变化,进而影响土著生物群落和食物网结构;(3)食物网的大小及其连通性可能影响外来植物的入侵成功率.在今后的研究中,为深入揭示生物入侵对食物网的影响,在短期控制实验的基础上应加强长时间尺度的动态研究,对于食物网变化的定量描述对象也需要进一步加以明确.此外,食物网对入侵植物生态修复的响应以及食物网变化对入侵植物的反馈作用等也具有重要的研究价值.     

共生珊瑚异养营养研究进展

共生珊瑚的异养营养指有虫黄藻共生的珊瑚在同化作用过程中,除通过虫黄藻光合作用获取营养之外,还可以从外界环境中直接摄取现成的有机物,经消化吸收后转变为自身的组成物质或储存为能量.国内外异地养殖或繁育虫黄藻共生珊瑚的研究多集中在光照、水流、水质等条件对珊瑚生长的影响,对共生珊瑚异养营养需求与供应方面的关注较少.本文从共生珊瑚异养营养来源、影响共生珊瑚异养营养供应的因素以及研究手段等方面,对国内外研究进展进行了综述,探讨异养营养供应对共生珊瑚的意义.总的来说,目前共生珊瑚异养营养的研究尚处于起步阶段,不论是研究方法或者珊瑚选择摄食的内在机制,都需要深入探究.     

N:P化学计量学在生态学研究中的应用

化学计量学很早就被应用于生态学研究中,但长期以来几乎被生态学家所忽视.近年来,由于认识到化学计量学研究可以把生态实体的各个层次在元素水平上统一起来,因此元素化学计量学成为近年来新兴的一个生态学研究领域.氮磷作为植物生长的必需矿质营养元素和生态系统常见的限制性元素,在植物体内存在功能上的联系,二者之间具有重要的相互作用.近年来由于人类活动的强烈影响,这两种元素的循环在速度和规模上都发生了前所未有的改变,导致一系列环境问题的出现,因此N:P化学计量学研究就显得极为重要.本文论述了N:P化学计量学在物种、群落、生态系统等各层次的应用现状,同时从分子生物学角度分析了应用N:P化学计量学的可行性,并指出了N:P化学计量学研究的应用前景和存在的缺陷.     

水产动物继饥饿或营养不足后的补偿生长研究进展

综述了水产动物继饥饿或营养不足后的补偿生长研究进展,其中包括补偿生长的程度、影响因素、生理学机制、补偿生长研究的实验设计、补偿生长过程中生长率和生化组成的变化及存在的问题和应用前景。     

补充营养对枹栎象成虫寿命的影响

在饲养笼内分别饲喂枹栎(Quercus serrata Murray)幼果、枹栎嫩枝、清水和10%蔗糖水,以不饲喂任何食物为对照,研究营养补充对枹栎象Curculio haroldi Faust成虫寿命的影响。同时,还研究枹栎象的个体大小和性别对其寿命是否有潜在影响。结果表明:补充不同营养对枹栎象的寿命有显著影响,其中10%蔗糖水组的寿命最长,是其他营养组的3~4倍。另外,虫体大小(即体长)对枹栎象寿命也有显著影响,且雌虫寿命一般比雄性略长,但性别间无显著差异。研究结果说明,营养品质和虫体大小可显著影响枹栎象寿命,进而影响其繁殖以及对寄主植物的危害。     

丛枝菌根真菌与植物硫素营养研究进展

丛枝菌根真菌是土壤微生物群落的重要组成部分,是最常见的地下共生菌,对植物和土壤具有多种有益作用。本文阐述了近年来丛枝菌根真菌对植物吸收土壤硫素的最新进展,在目前耕地缺硫状况下,着重分析了丛枝菌根真菌改善植物硫素营养以及丛枝菌根真菌利用硫素的分子调控机制,总结了影响菌根硫代谢的因素,并指出该研究方向仍存在的一些问题以及未来的研究侧重点。     

Relative strengths of top-down and bottom-up forces in a tropical forest community

We tested integrative bottom-up and top-down trophic cascade hypotheses with manipulative experiments in a tropical wet forest, using the ant-plant Piper cenocladum and its associated arthropod community. We examined enhanced nutrients and light along with predator and herbivore exclusions as sources of variation in the relative biomass of plants, their herbivores (via rates of herbivory), and resident predaceous ants. The combined manipulations of secondary consumers, primary consumers, and plant resources allowed us to examine some of the direct and indirect effects on each trophic level and to determine the relative contributions of bottom-up and top-down cascades to the structure of the community. We found that enhanced plant resources (nutrients and light) had direct positive effects on plant biomass. However, we found no evidence of indirect (cascading through the herbivores) effects of plant biomass on predators or top predators. In contrast, ants had indirect effects on plant biomass by decreasing herbivory on the plants. This top-down cascade occurred whether or not plant resources were enriched, conditions which are expected to modify top-down forces. Received: 9 August 1998 / Accepted: 1 December 1998     

Climate-induced changes in bottom-up and top-down processes independently alter a marine ecosystem

Climate change has complex structural impacts on coastal ecosystems. Global warming is linked to a widespread decline in body size, whereas increased flood frequency can amplify nutrient enrichment through enhanced run-off. Altered population body-size structure represents a disruption in top-down control, whereas eutrophication embodies a change in bottom-up forcing. These processes are typically studied in isolation and little is known about their potential interactive effects. Here, we present the results of an in situ experiment examining the combined effects of top-down and bottom-up forces on the structure of a coastal marine community. Reduced average body mass of the top predator (the shore crab, Carcinus maenas) and nutrient enrichment combined additively to alter mean community body mass. Nutrient enrichment increased species richness and overall density of organisms. Reduced top-predator body mass increased community biomass. Additionally, we found evidence for an allometrically induced trophic cascade. Here, the reduction in top-predator body mass enabled greater biomass of intermediate fish predators within the mesocosms. This, in turn, suppressed key micrograzers, which led to an overall increase in microalgal biomass. This response highlights the possibility for climate-induced trophic cascades, driven by altered size structure of populations, rather than species extinction.     

Complex wasp-waist regulation of pelagic ecosystems in the Pacific Ocean

‘Wasp-waist’ control of marine ecosystems is driven by a combination of top-down and bottom-up forcing by a few abundant short-lived species occupying intermediate trophic levels that form a narrow ‘waist’ through which energy flow from low to high trophic levels is controlled. It has been assumed that wasp-waist control occurs primarily in highly productive and species-poor systems (e.g. upwelling regions). Two large, species-rich, pelagic ecosystems in the relatively oligotrophic eastern and western Pacific Ocean also show wasp-waist-like structure, in that short-lived and fast-growing cephalopods and fishes at intermediate trophic levels comprise the vast majority of the biomass. Possible forcing dynamics of these systems were examined using ecosystem models by altering the biomass of phytoplankton (bottom-up forcing), large pelagic predators (top-down forcing), and intermediate ‘wasp-waist’ functional groups independently and observing how these changes propagated throughout the ecosystem. The largest effects were seen when altering the biomass of mid trophic-level epipelagic and mesopelagic fishes, where dramatic trophic cascades occurred both upward and downward in the system. We conclude that the high productivity and standing biomass of animals at intermediate trophic levels has a strong top-down influence on the abundance of primary producers. Furthermore, their importance as prey for large predators results in bottom-up controls on populations at higher trophic levels. We show that these tropical pelagic ecosystems possess a complex structure whereby several waist groups and alternate trophic pathways from primary producers to apex predators can cause unpredictable effects when the biomasses of particular functional groups are altered. Such models highlight the possible structuring mechanisms in pelagic systems, which have implications for fisheries that exploit these wasp-waist groups, such as squid fisheries, as well as for fisheries of top predators such as tunas and billfishes that prey upon wasp-waist species.     

Trophic structure of nine Czech reservoirs regularly stocked with piscivorous fish

For nearly 20 years, most Czech reservoirs supplying drinking water have been under statutory protection which permitted reservoir managers to manipulate fish stocks in order to maintain a sustainable water quality. The most common biomanipulative measure adopted was stocking with piscivorous fish (mostly 5 cm fry) using an annual stocking level of approx. 25 000 fish per reservoir. Nine reservoirs were studied for signs of top-down food web effects, as predicted by the trophic cascade hypothesis based on levels of total phosphorus (TP), chlorophyll a (Chl a), zooplankton biomass (ZB) and zooplankton community structure. In all nine reservoirs, only small Daphnia species were recorded, such as D. galeata and D. cucullata. The proportion of large-bodied daphnids retained on a 0.71 mm sieve was less than 10% of the total crustacean biomass in all reservoirs. The relationship of Chl a level – TP, and of ZB – Chl a, was positive under enhanced piscivory and did not differ statistically from the relationships in other reservoirs with natural fish stocks. This implies that bottom-up forces remained stronger than top-down ones in the studied reservoirs, despite the stocking of piscivorous fish. The failure of this attempt at biomanipulation may be due to an insufficient stocking rate of predatory fish and/or inadequate data on the resident planktivorous fish levels.     

Ecosystem alteration modifies the relative strengths of bottom-up and top-down forces in a herbivore population

1. Ecosystem alterations can affect the abundance, distribution and diversity of plants and animals, and thus potentially change the relative strength of bottom-up (the plant resource) and top-down (natural enemies) trophic forces acting on herbivore populations. 2. The hypothesis that alterations of the forest ecosystem associated with precommercial thinning have contributed to the increased severity of outbreaks of Neodiprion abietis (Harris), a sawfly defoliator, through the reduction of trophic forces acting on N. abietis larvae, was tested using exclusion techniques. 3. The relative contributions to N. abietis larval mortality of bottom-up and top-down forces both increased with increasing levels of defoliation and were both reduced by thinning. The reduction of bottom-up and top-down forces caused a 58% mean increase in N. abietis larval survival in thinned compared with untreated stands, which is less than would be expected by the sum of the effects of thinning on each source of mortality. Evidence indicates that the partly compensatory, partly additive nature of the mortality associated with trophic forces in the system under study is responsible for this discrepancy. 4. To our knowledge, this is the first study to show the impact of ecosystem alterations on the balance between bottom-up and top-down forces acting on an eruptive herbivore population along a gradient of host-plant defoliation, and how this can lead to increased outbreak severity. It is stressed that accurate estimates of the relative contributions of bottom-up and top-down forces to mortality cannot be obtained if the additive or compensatory nature of the mortality associated with these trophic forces is overlooked.     

Relative importance of top-down and bottom-up forces in food webs of Sarracenia pitcher communities at a northern and a southern site

The relative importance of resources (bottom-up forces) and natural enemies (top-down forces) for regulating food web dynamics has been debated, and both forces have been found to be critical for determining food web structure. How the relative importance of top-down and bottom-up forces varies between sites with different abiotic conditions is not well understood. Using the pitcher plant inquiline community as a model system, I examine how the relative importance of top-down and bottom-up effects differs between two disparate sites. Resources (ant carcasses) and top predators (mosquito larvae) were manipulated in two identical 4 × 4 factorial press experiments, conducted at two geographically distant sites (Michigan and Florida) within the range of the purple pitcher plant, Sarracenia purpurea, and the aquatic community that resides in its leaves. Overall, top predators reduced the density of prey populations while additional resources bolstered them, and the relative importance of top-down and bottom-up forces varied between sites and for different trophic levels. Specifically, top-down effects on protozoa were stronger in Florida than in Michigan, while the opposite pattern was found for rotifers. These findings experimentally demonstrate that the strength of predator–prey interactions, even those involving the same species, vary across space. While only two sites are compared in this study, I hypothesize that site differences in temperature, which influences metabolic rate, may be responsible for variation in consumer–resource interactions. These findings warrant further investigation into the specific factors that modify the relative importance of top-down and bottom-up effects.     

Temporal variation in bottom-up and top-down effects differ among herbivores with different seasonality

How variations in the strength of bottom-up and top-down forces are mediated by life-history trait differences of insect herbivores is an important but underexplored topic in ecology. Here, we implemented a factorial experiment manipulating plant quality by nitrogen fertilization and attack rates of parasitoids and spiders, respectively. We used sticky traps and mesh barriers in a salt marsh system to examine bottom-up and top-down effects on populations of three hemipteran sap-feeding monophagous species of Phragmites australis with different seasonality. The species included Chloriona alaica and Stenocranus matsumurai most abundant in spring and autumn, respectively, and Dimorphopterus pallipes abundant in both summer and autumn. Fertilization increased the density of S. matsumurai but had no effect on C. alaica and D. pallipes. Its negative effects on densities of the latter two species were even observed in earlier months. On the other hand, parasitoid removal not only increased abundance of all three herbivores, but also reduced the culm diameter, shoot height and biomass of P. australis, suggesting a trophic cascade. The main effects of parasitoid removal were greatest in months when those herbivores had their peak densities. In contrast, spider removal only affected the abundance of S. matsumurai with the greatest effect in September. Our results indicate that parasitoids have strong top-down effects on populations of insect herbivores in P. australis-dominated salt marshes and the strength of their effects is positively correlated with the host density. Furthermore, effects of plant quality and spider predation are more varied among herbivores with different seasonality.     

Relative roles of top-down and bottom-up forces in terrestrial tritrophic plant–insect herbivore–natural enemy systems

Whether resources (bottom-up forces), natural enemies (top-down forces), or both, determine the abundance of insect herbivore populations in plant–insect herbivore–natural enemy systems remains a major issue in population ecology. Unlike recent surveys of the tritrophic literature we do not seek to quantify whether top-down or bottom-up forces predominate in any given set of experimental systems. Acknowledging the dearth of empirical synthesis we employ two contrasting literature surveys to determine whether the plant–insect herbivore–natural enemy literature is currently adequate to form a conceptual synthesis of the relative roles of top-down and bottom-up forces. The emergence of a synthesis of the relative roles of top-down and bottom-up forces in plant–insect herbivore–natural enemy systems appears to have been largely prevented by (1) the absence of appropriate empirical data; (2) failure to appreciate the merits of existing data; (3) a continued desire to emphasise either top-down or bottom-up forces to the exclusion of the other; and (4) confusion regarding which processes regulate and which influence the abundance of insect herbivores.     

A review: limnological management and biomanipulation in the London reservoirs

Low algal biomasses and high water transparencies are a feature of the storage reservoirs that supply most of London's treated water. This is a result of knowledgeable limnological management and biomanipulation and despite the eutrophic nature of the River Thames with its high nutrients (7 gN m⁻³; 1 gP m⁻³) and particulate organic carbon (2 gC m⁻³). Built-in possibilities of jetting input water are managed to prevent stratification, to ensure isothermy, to mix chemicals and plankton vertically and horizontally and to manipulate the mixed-depth of the algal populations such that their potential for biomass growth is reduced by light-energy limitation. Spring algal growth is delayed and the spring peak is reduced and curtailed by the grazing impact of considerable biomasses of large-bodied daphnid populations (Daphnia magna, pulicaria & hyalina) whose development is also supported by the continuous input of high riverine algal crops. The existence of a large-bodied daphnid zooplankton in the reservoirs is associated with low levels of fish predation since the late 1960s. Variations in the intensity and nature of this vertebrate predation during the subsequent twenty years (1968–88) are illustrated by the changes that have occurred in the relationship between the phytoplankton and zooplankton biomasses of the April-May-June quarter of the year. This example of the London reservoirs serves to illustrate biomanipulation in deep water bodies by bottom-up as well as top-down effects.     

Linking Cascading Effects of Fish Predation and Zooplankton Grazing to Reduced Cyanobacterial Biomass and Toxin Levels Following Biomanipulation

Eutrophication has been one of the largest environmental problems in aquatic ecosystems during the past decades, leading to dense, and often toxic, cyanobacterial blooms. In a way to counteract these problems many lakes have been subject to restoration through biomanipulation. Here we combine 13 years of monitoring data with experimental assessment of grazing efficiency of a naturally occurring zooplankton community and a, from a human perspective, desired community of large Daphnia to assess the effects of an altered trophic cascade associated with biomanipulation. Lake monitoring data show that the relative proportion of Daphnia spp. grazers in June has increased following years of biomanipulation and that this increase coincides with a drop in cyanobacterial biomass and lowered microcystin concentrations compared to before the biomanipulation. In June, the proportion of Daphnia spp. (on a biomass basis) went from around 3% in 2005 (the first year of biomanipulation) up to around 58% in 2012. During months when the proportion of Daphnia spp. remained unchanged (July and August) no effect on lower trophic levels was observed. Our field grazing experiment revealed that Daphnia were more efficient in controlling the standing biomass of cyanobacteria, as grazing by the natural zooplankton community never even compensated for the algal growth during the experiment and sometimes even promoted cyanobacterial growth. Furthermore, although the total cyanobacterial toxin levels remained unaffected by both grazer communities in the experimental study, the Daphnia dominated community promoted the transfer of toxins to the extracellular, dissolved phase, likely through feeding on cyanobacteria. Our results show that biomanipulation by fish removal is a useful tool for lake management, leading to a top-down mediated trophic cascade, through alterations in the grazer community, to reduced cyanobacterial biomass and lowered cyanobacterial toxin levels. This improved water quality enhances both the ecological and societal value of lakes as units for ecosystem services.