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21.
FEDERICO BRILLI PAOLO CICCIOLI MASSIMILIANO FRATTONI MARCO PRESTININZI ANTONIO FRANCO SPANEDDA & FRANCESCO LORETO 《Plant, cell & environment》2009,32(5):542-552
Chrysomela populi beetles feed on poplar leaves and extensively damage plantations. We investigated whether olfactory cues orientate landing and feeding. Young, unexpanded leaves of hybrid poplar emit constitutively a blend of monoterpenes, primarily ( E )- β -ocimene and linalool. This blend attracts inexperienced adults of C. populi that were not previously fed with poplar leaves. In mature leaves constitutively emitting isoprene, insect attack induces biosynthesis and emission of the same blend of monoterpenes, but in larger amount than in young leaves. The olfactometric test indicates that inexperienced beetles are more attracted by adult than by young attacked leaves, suggesting that attraction by induced monoterpenes is dose dependent. The blend does not attract adults that previously fed on poplar leaves. Insect-induced emission of monoterpenes peaks 4 d after the attack, and is also detected in non-attacked leaves. Induced monoterpene emission is associated in mature leaves with a larger decrease of isoprene emission. The reduction of isoprene emission is faster than photosynthesis reduction in attacked leaves, and also occurs in non-attacked leaves. Insect-induced monoterpenes are quickly and completely labelled by 13 C. It is speculated that photosynthetic carbon preferentially allocated to constitutive isoprene in healthy leaves is in part diverted to induced monoterpenes after the insect attack. 相似文献
22.
Piesik D Wenda-Piesik A Kotwica K Łyszczarz A Delaney KJ 《Journal of plant physiology》2011,168(17):2134-2138
We report large induction (>65fold increases) of volatile organic compounds (VOCs) emitted from a single leaf of the invasive weed mossy sorrel, Rumex confertus Willd. (Polygonaceae), by herbivory of the dock leaf beetle, Gastrophysa polygoni L. (Coleoptera: Chrysomelidae). The R. confertus VOC blend induced by G. polygoni herbivory included two green leaf volatiles ((Z)-3-hexenal, (Z)-3-hexen-1-yl acetate) and three terpenes (linalool, ß-caryophyllene, (E)-ß-farnesene). Uninjured leaves produced small constitutive amounts of the GLVs and barely detectable amounts of the terpenes. A Y-tube olfactometer bioassay revealed that both sexes of adult G. polygoni were attracted to (Z)-3-hexenal and (Z)-3-hexen-1-yl acetate at a concentration of 300 ng h−1. No significant G. polygoni attraction or repellence was detected for any VOC at other concentrations (60 and 1500 ng h−1). Yet, G. polygoni males and females were significantly repelled by (or avoided) at the highest test concentration (7500 ng h−1) of both GLVs and (E)-ß-farnesene. Mated male and female G. polygoni might be attracted to injured R. confertus leaves, but might avoid R. confertus when VOC concentrations (especially the terpene (E)-ß-farnesene) suggest high overall plant injury from conspecifics, G. viridula, or high infestations of other herbivores that release (E)-ß-farnesene (e.g., aphids). Tests in the future will need to examine G. polygoni responses to VOCs emitted directly from uninjured (constitutive) and injured (induced) R. confertus, and examine whether R. confertus VOC induction concentrations increase with greater tissue removal on a single leaf and/or the number of leaves with feeding injury. 相似文献
23.
植物释放挥发性有机物(VOCs)的研究进展 总被引:20,自引:0,他引:20
植物释放的有机物(VOCs)对大气圈臭氧的动态、一氧化碳的产生和甲烷的氧化起重要作用。本文主要综述了异戊二烯、单萜这两种重要的植物释放物,总结了国内外的研究进展,概括了它们的合成、释放以及环境因子的影响。同时简要介绍了其它几种植物释放的有机物,并就有机物的释放对大气化学、温室效应和全球变化的影响也作了简要分析。 相似文献
24.
近年来大气污染问题愈发突出,工业生产过程是大气污染的一重要源头。微生物法治理制造工业生产中产生的挥发性有机物、恶臭气体、硫化物、氮氧化物等气态污染物以效率高、投资少、绿色且环境友好等优势逐渐在国内兴起,广受关注。本文综述了微生物法的基本理论、技术分类及特点、应用范围,以及国内外较新的研究方向与进展。微生物法净化低浓度污染物效率往往很高,而处理难溶、高浓度、生物毒性、难降解的污染物时易受到局限。专家学者们对此进行了大量研究与实验,创新出的高效技术进行总结。本文认为减少传质阻力方法的应用、与其他处理技术联用、清晰微生物降解机理与途径等是提高微生物法效率的重要方向。但提及的大部分强化手段仍处于实验研究阶段,使其工业化仍需要进一步探索。 相似文献
25.
Early detection of bacterial diseases in apple plants by analysis of volatile organic compounds profiles and use of electronic nose 总被引:1,自引:0,他引:1 下载免费PDF全文
A. Cellini E. Biondi S. Blasioli L. Rocchi B. Farneti I. Braschi S. Savioli M.T. Rodriguez‐Estrada F. Biasioli F. Spinelli 《The Annals of applied biology》2016,168(3):409-420
DNA‐based protocols are the standard methods for the diagnosis of infected plant material. Nevertheless, these methods are time‐consuming and require trained personnel, with an efficacy depending on the sampling procedure. In comparison, recognition methods based on volatile compounds emissions are less precise, but allow a non‐destructive mass screening of bulk samples, and may be implemented to steer molecular diagnosis. In this study, the analysis of volatile compounds is used for the discrimination of fire blight (Erwinia amylovora) and blossom blight (Pseudomonas syringae pv. syringae) on apple propagation material. Possible marker compounds were identified by gas chromatography–mass spectroscopy (GC‐MS) and proton transfer reaction‐time of flight‐mass spectroscopy (PTR‐ToF‐MS). In addition, two commercial electronic noses were used for diagnosis. After a preliminary validation in vitro, a diagnostic protocol was successfully developed to scale up to real nursery conditions on cold stored, asymptomatic dormant plants. 相似文献
26.
The evolution of floral scent: the influence of olfactory learning by insect pollinators on the honest signalling of floral rewards 总被引:5,自引:1,他引:4
1. The evolution of flowering plants has undoubtedly been influenced by a pollinator's ability to learn to associate floral signals with food. Here, we address the question of 'why' flowers produce scent by examining the ways in which olfactory learning by insect pollinators could influence how floral scent emission evolves in plant populations.
2. Being provided with a floral scent signal allows pollinators to learn to be specific in their foraging habits, which could, in turn, produce a selective advantage for plants if sexual reproduction is limited by the income of compatible gametes. Learning studies with honeybees predict that pollinator-mediated selection for floral scent production should favour signals which are distinctive and exhibit low variation within species because these signals are learned faster. Social bees quickly learn to associate scent with the presence of nectar, and their ability to do this is generally faster and more reliable than their ability to learn visual cues.
3. Pollinators rely on floral scent as a means of distinguishing honestly signalling flowers from deceptive ones. Furthermore, a pollinator's sensitivity to differences in nectar rewards can bias the way that it responds to floral scent. This mechanism may select for flowers that provide olfactory signals as an honest indicator of the presence of nectar or which select against the production of a detectable scent signal when no nectar is present.
4. We expect that an important yet commonly overlooked function of floral scent is an improvement in short-term pollinator specificity which provides an advantage to both pollinator and plant over the use of a visual signal alone. This, in turn, impacts the evolution of plant mating systems via its influence on the species-specific patterns of floral visitation by pollinators. 相似文献
2. Being provided with a floral scent signal allows pollinators to learn to be specific in their foraging habits, which could, in turn, produce a selective advantage for plants if sexual reproduction is limited by the income of compatible gametes. Learning studies with honeybees predict that pollinator-mediated selection for floral scent production should favour signals which are distinctive and exhibit low variation within species because these signals are learned faster. Social bees quickly learn to associate scent with the presence of nectar, and their ability to do this is generally faster and more reliable than their ability to learn visual cues.
3. Pollinators rely on floral scent as a means of distinguishing honestly signalling flowers from deceptive ones. Furthermore, a pollinator's sensitivity to differences in nectar rewards can bias the way that it responds to floral scent. This mechanism may select for flowers that provide olfactory signals as an honest indicator of the presence of nectar or which select against the production of a detectable scent signal when no nectar is present.
4. We expect that an important yet commonly overlooked function of floral scent is an improvement in short-term pollinator specificity which provides an advantage to both pollinator and plant over the use of a visual signal alone. This, in turn, impacts the evolution of plant mating systems via its influence on the species-specific patterns of floral visitation by pollinators. 相似文献
27.
Uneven distribution and excess accumulation of biomass within gas phase biofilters often result in operational problems such as clogging, channeling, and excessive head loss within biofilter beds, and consequently, the deterioration of performance. In this paper, the characteristics, mechanisms, and patterns of biomass accumulation in gas biofiltration were reviewed, and models for biomass accumulation were also summarized. Strategies for excess biomass control in gas biofiltration, categorized into either physical, chemical, or biological methods were also discussed, with improvements in design and operation of biofilters. Combinations of these approaches are usually necessary in order to maintain a reasonably even distribution and to minimize the accumulation of biomass in gas biofilters. 相似文献
28.
All plants are able to emit volatile organic compounds (VOCs) and the content and composition of these molecules show both genotypic variation and phenotypic plasticity. VOCs are involved in plant–plant interactions and for the attraction of pollinating and predatory insects. The biochemistry and molecular biology of plant VOCs is vast and complex, including several biochemical pathways and hundreds of genes. In this review the site of synthesis, the biosynthesis and the functional role of VOCs are discussed. 相似文献
29.
Chao Xu Benjamin Frigo-Vaz Joshua Goering Ping Wang 《Biotechnology and bioengineering》2023,120(5):1323-1333
Herein we report the use of Pseudomonas putida F1 biofilms grown on carbonized cellulosic fibers to achieve biodegradation of airborne volatile organic compounds (VOCs) in the absence of any bulk aqueous-phase media. It is believed that direct exposure of gaseous VOC substrates to biomass may eliminate aqueous-phase mass transfer resistance and facilitate VOC capture and degradation. When tested with toluene vapor as a model VOC, the supported biofilm could grow optimally at 300 p.p.m. toluene and 80% relative humidity, with a specific growth rate of 0.425 day−1. During long-term VOC biodegradation tests in a tubular packed bed reactor, biofilms achieved a toluene degradation rate of 2.5 mg gDCW−1 h−1 during the initial growth phase. Interestingly, the P. putida F1 film kept biodegrading activity even at the stationary nongrowth phase. The supported biofilms with a biomass loading of 20% (wt) could degrade toluene at a rate of 1.9 mg gDCW−1 h−1 during the stationary phase, releasing CO2 at a rate of 6.4 mg gDCW−1 h−1 at the same time (indicating 100% conversion of substrate carbon to CO2). All of these observations promised a new type of “dry” biofilm reactors for efficient degradation of toxic VOCs without involving a large amount of water. 相似文献
30.
Omar?Romero-HernandezEmail author 《The International Journal of Life Cycle Assessment》2005,10(5):355-363
Background The analysis of a wastewater treatment technology, under a expanded boundaries system which includes both the technology
and the inputs required for its operation, quantifies the overall environmental impact that may result from the treatment
of a wastewater stream. This is particularly useful for environmental policy makers being that a expanded boundaries system
tends to provide a holistic view. The former view can be highly enriched with the use of process engineering tools, such as
mathematical process modelling, process design, performance assessment and cost optimised models.
Main Features The traditional approach used to assess waste treatment technologies is contrasted with a life cycle analysis (LCA) approach.
The optimal design of a granular activated carbon adsorption (GAC) process is used as a model system to demonstrate the advantages
of LCA approaches over traditional approaches. Further sections of the paper describe a mathematical framework for the assessment
of technologies, design considerations applied in the cost optimised carbon adsorption model, the use of LCA techniques to
perform an inventory of all emissions associated to the process system and, some of its environmental impacts.
Results Economic and environmental considerations regarding the optimum process design are introduced as a basis for decision towards
the selection and operating conditions of wastewater treatment technologies. Moreover, the use of LCA has revealed that the
environmental burden associated with the wastewater treatment may produce a higher environmental impact than one that can
be caused by untreated discharges.
Conclusion The paper highlights the string advantages that environmental policy makers may have by combining LCA and process engineering
tools. Furthermore, this approach can be incorporated into other existing treatment processes or for process designers. 相似文献