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ROBERT R. JUNKER RICHARD BLEIL CURTIS C. DAEHLER NICO BLÜTHGEN 《Ecological Entomology》2010,35(6):760-767
1. Sympatric flower visitor species often partition nectar and pollen and thus affect each other's foraging pattern. Consequently, their pollination service may also be influenced by the presence of other flower visiting species. Ants are solely interested in nectar and frequent flower visitors of some plant species but usually provide no pollination service. Obligate flower visitors such as bees depend on both nectar and pollen and are often more effective pollinators. 2. In Hawaii, we studied the complex interactions between flowers of the endemic tree Metrosideros polymorpha (Myrtaceae) and both, endemic and introduced flower‐visiting insects. The former main‐pollinators of M. polymorpha were birds, which, however, became rare. We evaluated the pollinator effectiveness of endemic and invasive bees and whether it is affected by the type of resource collected and the presence of ants on flowers. 3. Ants were dominant nectar‐consumers that mostly depleted the nectar of visited inflorescences. Accordingly, the visitation frequency, duration, and consequently the pollinator effectiveness of nectar‐foraging honeybees (Apis mellifera) strongly decreased on ant‐visited flowers, whereas pollen‐collecting bees remained largely unaffected by ants. Overall, endemic bees (Hylaeus spp.) were ineffective pollinators. 4. The average net effect of ants on pollination of M. polymorpha was neutral, corresponding to a similar fruit set of ant‐visited and ant‐free inflorescences. 5. Our results suggest that invasive social hymenopterans that often have negative impacts on the Hawaiian flora and fauna may occasionally provide neutral (ants) or even beneficial net effects (honeybees), especially in the absence of native birds. 相似文献
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As a continuation of studies of the regenerative capacitiesof the scyphistoma of Cassiopea, a series of experiments wasundertaken in which (i) regenerating fragments were culturedin the presence of various antimetabolites and (ii) Feulgenstainednuclei from control animals and regenerating fragments weremeasured by scanning, integrating microspectrophotometry. Theresults of the antimetabolite experiments were complex and variablebut nonetheless suggested that normal regeneration of functionalheads from fragments requires the synthesis of DNA, RNA, andprotein. Regardless of the type of antimetabolite, the mostfrequently observed morphological effect was prolonged or arresteddevelopment. None of the antimetabolites produced characteristicor unique abnormalities, although variation was observed inthe ability of the inhibited fragments to recover from the variousantimetabolites. Microspectrophotometric measurements of Feulgen-stainednuclei from control animals revealed that approximately 25%of the nuclei contained more than the diploid amount of DNAand thus were in either the S or G2 phases of the cell cycle.In regenerating fragments, the frequency of nuclei in this categorydropped progressively to less than 6% by the end of 3 days butreturned nearly to control levels by the end of six days. Thenuclei also became somewhat enlarged and less dense during regeneration. 相似文献
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Evolving concepts in plant glycolysis: two centuries of progress 总被引:4,自引:0,他引:4
CURTIS V. GIVAN 《Biological reviews of the Cambridge Philosophical Society》1999,74(3):277-309
Glycolysis, the process responsible for the conversion of monosaccharides to pyruvic acid, is a ubiquitous feature of cellular metabolism and was the first major biochemical pathway to be well characterized. Although the majority of glycolytic enzymes are common to all organisms, the past quarter of a century has revealed that glycolysis in higher plants possesses numerous distinctive features. Research in the nineteenth century established convincingly that plants carry out alcoholic fermentation under anaerobic conditions. In 1878, Wilhelm Pfeffer asserted that a non-oxygen-requiring ‘intramolecular respiration’ was involved in the aerobic respiration of plants. Between 1900 and 1950 it was demonstrated that plants metabolize sugar and starch by a glycolytic pathway broadly similar to that of yeasts and muscle tissue. In 1948, the first purification and characterization of a plant glycolytic enzyme, aldolase, was published by Paul Stumpf. By 1960 the presence of each of the 10 enzymes of glycolysis, presumed at the time to be located in the cytosol, had been confirmed in higher plants. Shortly after 1960 it was shown that the mechanism of glycolytic regulation in plants had features in common with that of animals and yeasts, especially as regards the important role played by the enzyme phosphofructokinase; but important regulatory properties peculiar to plants were soon demonstrated. In the last 30 years, higher-plant glycolysis has been found to exhibit a number of additional characteristics peculiar to plant systems. One conspicuous feature of plant glycolysis, discovered in the 1970s, is the presence of a complete or nearly complete sequence of glycolytic enzymes in plastids, distinct and spatially separated from the glycolytic enzymes located in the cytosol. Plastidic and cytosolic isoenzymes of glycolysis have been shown to differ in their kinetic and regulatory properties, suggesting that the two pathways are independently regulated. Since about 1980 it has become increasingly clear that the cytosolic glycolysis of plants may make use of several enzymes other than the conventional ones found in yeasts, muscle tissue and plant plastids: these enzymes include a pyrophosphate-dependent phosphofructokinase, a non-reversible and nonphosphorylating glyceraldehyde-3-phosphate dehydrogenase, a phosphoenolpyruvate phosphatase (vacuolar location) and a three-enzyme sequence able to produce pyruvate from phosphoenolpyruvate avoiding the pyruvate-kinase step. These non-conventional enzymes may catalyze glycolysis in the plant cytosol especially under conditions of metabolic stress. Experiments on transgenic plants possessing significantly elevated or reduced (reduced to virtually nil in some cases) levels of glycolytic enzymes are currently playing an important part in improving our understanding of the regulation of plant glycolysis; such experiments illustrate an impressive degree of flexibility in the pathway's operation. Plant cells are able to make use of enzymes bypassing or substituting for several of the conventional enzymic steps in the glycolytic pathway; the extent and conditions under which these bypasses operate are the subject of current research. The duplication of the glycolytic pathway in plants and the flexible nature of the pathway have possibly evolved in relation to the crucial biosynthetic role played by plant glycolysis beyond its function in energy generation; both functions must proceed if a plant is to survive under varying and often stressful environmental or nutritional conditions. 相似文献
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1. A survey of c. 350 remote high altitude and high latitude lakes from 12 different mountain regions across Europe was undertaken to explore ecosystem variability, climate forcing, environmental conditions and pollution threats at a scale not previously attempted.
2. Lakes were sampled for a range of contemporary and sub-fossil organisms including planktonic crustaceans, rotifers, littoral invertebrates, chironomids, diatoms and cladocerans. Survey and cartographic data were used to determine environmental characteristics at each site. Organic pollutants and trace metal concentrations were measured in the lake sediment.
3. A number of separate studies were undertaken which examined the environmental characteristics of the surveyed lakes (climate forcing and chemical composition), distribution of biota relative to local, regional and biogeographical factors and pollution threats (acidification, heavy metals and persistent organic pollutants) to these sensitive ecosystems.
4. There is a strong regional element to the way that environmental factors combine (including climate and pollution threats) and the biota responds in mountain lakes across Europe. From a management perspective it is clear that lake classification and the development of useful typologies and assessments of reference conditions should be undertaken at regional rather than pan-European scales.
5. There are some common features across lake districts related to the timing of industrialisation, but the studies carried out on metals, organic pollutants and nitrate deposition indicate that each lake district has distinct pollution threats. Climate warming already affects most of the lake districts and there are considerable uncertainties as to how this will modify conditions in remote European mountain systems.
6. The lake district concept goes beyond a geographical construct and merits further theoretical and experimental development as an ecological concept. 相似文献
2. Lakes were sampled for a range of contemporary and sub-fossil organisms including planktonic crustaceans, rotifers, littoral invertebrates, chironomids, diatoms and cladocerans. Survey and cartographic data were used to determine environmental characteristics at each site. Organic pollutants and trace metal concentrations were measured in the lake sediment.
3. A number of separate studies were undertaken which examined the environmental characteristics of the surveyed lakes (climate forcing and chemical composition), distribution of biota relative to local, regional and biogeographical factors and pollution threats (acidification, heavy metals and persistent organic pollutants) to these sensitive ecosystems.
4. There is a strong regional element to the way that environmental factors combine (including climate and pollution threats) and the biota responds in mountain lakes across Europe. From a management perspective it is clear that lake classification and the development of useful typologies and assessments of reference conditions should be undertaken at regional rather than pan-European scales.
5. There are some common features across lake districts related to the timing of industrialisation, but the studies carried out on metals, organic pollutants and nitrate deposition indicate that each lake district has distinct pollution threats. Climate warming already affects most of the lake districts and there are considerable uncertainties as to how this will modify conditions in remote European mountain systems.
6. The lake district concept goes beyond a geographical construct and merits further theoretical and experimental development as an ecological concept. 相似文献
19.
JAMES T. RANDERSON FORREST M. HOFFMAN† PETER E. THORNTON‡ § NATALIE M. MAHOWALD¶ KEITH LINDSAY‡ YEN-HUEI LEE‡ CYNTHIA D. NEVISON SCOTT C. DONEY GORDON BONAN‡ RETO STÖCKLI†† ‡‡ CURTIS COVEY§§ STEVEN W. RUNNING¶¶ INEZ Y. FUNG 《Global Change Biology》2009,15(10):2462-2484
With representation of the global carbon cycle becoming increasingly complex in climate models, it is important to develop ways to quantitatively evaluate model performance against in situ and remote sensing observations. Here we present a systematic framework, the Carbon‐LAnd Model Intercomparison Project (C‐LAMP), for assessing terrestrial biogeochemistry models coupled to climate models using observations that span a wide range of temporal and spatial scales. As an example of the value of such comparisons, we used this framework to evaluate two biogeochemistry models that are integrated within the Community Climate System Model (CCSM) – Carnegie‐Ames‐Stanford Approach′ (CASA′) and carbon–nitrogen (CN). Both models underestimated the magnitude of net carbon uptake during the growing season in temperate and boreal forest ecosystems, based on comparison with atmospheric CO2 measurements and eddy covariance measurements of net ecosystem exchange. Comparison with MODerate Resolution Imaging Spectroradiometer (MODIS) measurements show that this low bias in model fluxes was caused, at least in part, by 1–3 month delays in the timing of maximum leaf area. In the tropics, the models overestimated carbon storage in woody biomass based on comparison with datasets from the Amazon. Reducing this model bias will probably weaken the sensitivity of terrestrial carbon fluxes to both atmospheric CO2 and climate. Global carbon sinks during the 1990s differed by a factor of two (2.4 Pg C yr?1 for CASA′ vs. 1.2 Pg C yr?1 for CN), with fluxes from both models compatible with the atmospheric budget given uncertainties in other terms. The models captured some of the timing of interannual global terrestrial carbon exchange during 1988–2004 based on comparison with atmospheric inversion results from TRANSCOM (r=0.66 for CASA′ and r=0.73 for CN). Adding (CASA′) or improving (CN) the representation of deforestation fires may further increase agreement with the atmospheric record. Information from C‐LAMP has enhanced model performance within CCSM and serves as a benchmark for future development. We propose that an open source, community‐wide platform for model‐data intercomparison is needed to speed model development and to strengthen ties between modeling and measurement communities. Important next steps include the design and analysis of land use change simulations (in both uncoupled and coupled modes), and the entrainment of additional ecological and earth system observations. Model results from C‐LAMP are publicly available on the Earth System Grid. 相似文献
20.
CHADWICK D. RITTENHOUSE ANNA M. PIDGEON THOMAS P. ALBRIGHT PATRICK D. CULBERT MURRAY K. CLAYTON CURTIS H. FLATHER CHENGQUAN HUANG JEFFREY G. MASEK VOLKER C. RADELOFF 《Global Change Biology》2010,16(3):905-917
Global climate models predict increases in the frequency and intensity of extreme climatic events such as hurricanes, which may abruptly alter ecological processes in forests and thus affect avian diversity. Developing appropriate conservation measures necessitates identifying patterns of avifauna response to hurricanes. We sought to answer two questions: (1) does avian diversity, measured as community similarity, abundance, and species richness, change in areas affected by hurricane compared with unaffected areas, and (2) what factors are associated with the change(s) in avian diversity? We used North American Breeding Bird Survey data, hurricane track information, and a time series of Landsat images in a repeated measures framework to answer these questions. Our results show a decrease in community similarity in the first posthurricane breeding season for all species as a group, and for species that nest in the midstory and canopy. We also found significant effects of hurricanes on abundance for species that breed in urban and woodland habitats, but not on the richness of any guild. In total, hurricanes produced regional changes in community similarity largely without significant loss of richness or overall avian abundance. We identified several potential mechanisms for these changes in avian diversity, including hurricane‐induced changes in forest habitat and the use of refugia by birds displaced from hurricane‐damaged forests. The prospect of increasing frequency and intensity of hurricanes is not likely to invoke a conservation crisis for birds provided we maintain sufficient forest habitat so that avifauna can respond to hurricanes by shifting to areas of suitable habitat. 相似文献