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991.
Biotic indirect effects: a neglected concept in invasion biology 总被引:7,自引:2,他引:5
Indirect effects involve more than two species and are defined as how one species alters the effect that another species has on a third. These complex interactions are often overlooked in studies of interactions between alien and native species, and their role in influencing biological invasions has been rarely considered. Based on a comprehensive review of the invasion biology literature, we examine the evidence for the occurrence of four of the most commonly documented indirect effects (apparent competition, indirect mutualism/commensalism, exploitative competition, and trophic cascades) in the invasion process. Studies investigating indirect effects in the context of invasion biology are relatively rare, but have been increasing in recent years, and there are sufficient examples to indicate that this kind of interaction is likely to be more common than is currently recognized. Whether indirect interactions are mediated by an alien or a native species, and whether they occur between ecologically similar or dissimilar alien and native species, depends in part on the type of interaction considered and no predictable patterns were detected in the literature. Further empirical studies will help to elucidate such patterns. At this stage, the inherent unpredictability of indirect interactions means that their impacts in relation to invasions are particularly challenging for land managers to deal with, and their role in invasions is a complex, but is a valuable area of investigation for researchers. 相似文献
992.
GuoJun Zheng Qipeng Yuan Liu Yang Xu Zhang JianJun Wang WanRu Sun 《Journal of Molecular Catalysis .B, Enzymatic》2006,43(1-4):133-136
Preparation of (2S, 3R)-methyl 3-phenylglycidate via enantioselective hydrolysis of racemic phenylglycidate was carried out using whole cells of Pseudomonas putida. Under optimal conditions (2S, 3R)-methyl-3-phenylglycidate could be got with ee value 99 and 48% chemical yield. 相似文献
993.
Invasion of native habitats by alien or generalist species is recognized worldwide as one of the major causes behind species
decline and extinction. One mechanism determining community invasibility, i.e. the susceptibility of a community to invasion,
which has been supported by recent experimental studies, is species richness and functional diversity acting as barriers to
invasion. We used Scandinavian semi-natural grasslands, exceptionally species-rich at small spatial scales, to examine this
mechanism, using three grassland generalists and one alien species as experimental invaders. Removal of two putative functional
groups, legumes and dominant non-legume forbs, had no effect on invasibility except a marginally insignificant effect of non-legume
forb removal. The amount of removed biomass and original plot species richness had no effect on invasibility. Actually, invasibility
was high already in the unmanipulated community, leading us to further examine the relationship between invasion and propagule
pressure, i.e. the inflow of seeds into the community. Results from an additional experiment suggested that these species-rich
grasslands are effectively open to invasion and that diversity may be immigration driven. Thus, species richness is no barrier
to invasion. The high species diversity is probably in itself a result of the community being highly invasible, and species
have accumulated at small scales during centuries of grassland management. 相似文献
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Chlorophyll fluorescence analysis is one of the most convenient and widespread techniques used to monitor photosynthesis performance in plants. In this work, after a brief overview of the mechanisms of regulation of photosynthetic electron transport and protection of photosynthetic apparatus against photodamage, we describe results of our study of the effects of actinic light intensity on photosynthetic performance in Tradescantia species of different ecological groups. Using the chlorophyll fluorescence as a probe of photosynthetic activity, we have found that the shade-tolerant species Tradescantia fluminensis shows a higher sensitivity to short-term illumination (≤20 min) with low and moderate light (≤200 μE m−2 s−1) as compared with the light-resistant species Tradescantia sillamontana. In T. fluminensis, non-photochemical quenching of chlorophyll fluorescence (NPQ) and photosystem II operational efficiency (parameter ΦPSII) saturate as soon as actinic light reaches ≈200 μE m−2 s−1. Otherwise, T. sillamontana revealed a higher capacity for NPQ at strong light (≥800 μE m−2 s−1). The post-illumination adaptation of shade-tolerant plants occurs slower than in the light-resistant species. The data obtained are discussed in terms of reactivity of photosynthetic apparatus to short-term variations of the environment light. 相似文献
996.
Quantum biology is emerging as a new field at the intersection between fundamental physics and biology, promising novel insights into the nature and origin of biological order. We discuss several elements of QBCL (quantum biology at cellular level) – a research program designed to extend the reach of quantum concepts to higher than molecular levels of biological organization. We propose a new general way to address the issue of environmentally induced decoherence and macroscopic superpositions in biological systems, emphasizing the ‘basis-dependent’ nature of these concepts. We introduce the notion of ‘formal superposition’ and distinguish it from that of Schroedinger's cat (i.e., a superposition of macroscopically distinct states). Whereas the latter notion presents a genuine foundational problem, the former one contradicts neither common sense nor observation, and may be used to describe cellular ‘decision-making’ and adaptation. We stress that the interpretation of the notion of ‘formal superposition’ should involve non-classical correlations between molecular events in a cell. Further, we describe how better understanding of the physics of Life can shed new light on the mechanism driving evolutionary adaptation (viz., ‘Basis-Dependent Selection’, BDS). Experimental tests of BDS and the potential role of synthetic biology in closing the ‘evolvability mechanism’ loophole are also discussed. 相似文献
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