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91.
Felix B. Rosumek Fernando A. O. Silveira Frederico de S. Neves Newton P. de U. Barbosa Livia Diniz Yumi Oki Flavia Pezzini G. Wilson Fernandes Tatiana Cornelissen 《Oecologia》2009,160(3):537-549
We reviewed the evidence on the role of ants as plant biotic defenses, by conducting meta-analyses for the effects of experimental
removal of ants on plant herbivory and fitness with data pooled from 81 studies. Effects reviewed were plant herbivory, herbivore
abundance, hemipteran abundance, predator abundance, plant biomass and reproduction in studies where ants were experimentally
removed (n = 273 independent comparisons). Ant removal exhibited strong effects on herbivory rates, as plants without ants suffered
almost twice as much damage and exhibited 50% more herbivores than plants with ants. Ants also influenced several parameters
of plant fitness, as plants without ants suffered a reduction in biomass (−23.7%), leaf production (−51.8%), and reproduction
(−24.3%). Effects were much stronger in tropical regions compared to temperate ones. Tropical plants suffered almost threefold
higher herbivore damage than plants from temperate regions and exhibited three times more herbivores. Ant removal in tropical
plants resulted in a decrease in plant fitness of about 59%, whereas in temperate plants this reduction was not statistically
significant. Ant removal effects were also more important in obligate ant–plants (=myrmecophytes) compared to plants exhibiting
facultative relationships with hemiptera or those plants with extrafloral nectaries and food bodies. When only tropical plants
were considered and the strength of the association between ants and plants taken into account, plants with obligate association
with ants exhibited almost four times higher herbivory compared to plants with facultative associations with ants, but similar
reductions in plant reproduction. The removal of a single ant species increased plant herbivory by almost three times compared
to the removal of several ant species. Altogether, these results suggest that ants do act as plant biotic defenses, but the
effects of their presence are more pronounced in tropical systems, especially in myrmecophytic plants.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.
N. P. de U. Barbosa, L. Diniz, Y. Oki and F. Pezzini contributed equally to this work and are listed in alphabetical order. 相似文献
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Vladimir G. Onipchenko Mikhail S. Blinnikov Maria A. Gerasimova Elena V. Volkova Johannes H.C. Cornelissen 《植被学杂志》2009,20(4):718-727
Question. Competitive and facilitative interactions among plant species in different abiotic environments potentially link productivity, vegetation structure, species composition and functional diversity. We investigated these interactions among four alpine communities along an environmental productivity gradient in a generally harsh climate. We hypothesised that the importance of competition would be higher in more productive sites. Location. Mt. M. Khatipara (43°27′N, 41°41′E, altitude 2750 m), NW Caucasus, Russia. Communities ranged from low‐productivity alpine lichen heath (ALH) and snowbed communities (SBC), to intermediate productivity Festuca grassland (FVG), and high‐productivity Geranium‐Hedysarum meadow (GHM). Methods. We quantified the relative influence of competition and facilitation on community structure by expressing biomass of target species within each natural community proportionally to biomass of the species in a “null community” with experimental release from interspecific competition by removing all other species (for 6 years). An overall index of change in community composition due to interspecific interactions was calculated as the sum of absolute or proportional differences of the component species. Results. Species responses to neighbour removal ranged from positive to neutral. There was no evidence of facilitation among the selected dominant species. As expected, competition was generally most important in the most productive alpine community (GHM). The intermediate position for low‐productivity communities of stressful environments (ALH, SBC) and the last position of intermediately productive FVG were unexpected. Conclusions. Our results appear to support the Fretwell‐Oksanen hypothesis in that competition in communities of intermediate productivity was less intense than in low‐ or high‐productive communities. However, the zero net effect of competition and facilitation in FVG might be the result of abiotic stress due to strong sun exposure and high soil temperatures after neighbour removal. Thus, non‐linear relationships between soil fertility, productivity and different abiotic stresses may also determine the balance between competition and facilitation. 相似文献
95.
Vladimir G. Onipchenko Mikhail I. Makarov Richard S. P. van Logtestijn Viktor B. Ivanov Assem A. Akhmetzhanova Dzhamal K. Tekeev Anton A. Ermak Fatima S. Salpagarova Anna D. Kozhevnikova Johannes H. C. Cornelissen 《Ecology letters》2009,12(8):758-764
The evolution of plants has yielded a wealth of adaptations for the acquisition of key mineral nutrients. These include the structure, physiology and positioning of root systems. We report the discovery of specialized snow roots as a plant strategy to cope with the very short season for nutrient uptake and growth in alpine snow-beds, i.e. patches in the landscape that remain snow-covered well into the summer. We provide anatomical, chemical and experimental 15 N isotope tracking evidence that the Caucasian snow-bed plant Corydalis conorhiza forms extensive networks of specialized above-ground roots, which grow against gravity to acquire nitrogen directly from within snow packs. Snow roots capture nitrogen that would otherwise partly run off down-slope over a frozen surface, thereby helping to nourish these alpine ecosystems. Climate warming is changing and will change mountain snow regimes, while large-scale anthropogenic N deposition has increased snow N contents. These global changes are likely to impact on the distribution, abundance and functional significance of snow roots. 相似文献
96.
T De Lange P A Michels H J Veerman A W Cornelissen P Borst 《Nucleic acids research》1984,12(9):3777-3790
97.
Differential plant species responses to interactions of sand burial,precipitation enhancement and climatic variation promote co‐existence in Chinese steppe vegetation
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Vladimir G. Onipchenko Alii M. Kipkeev Mikhail I. Makarov Anna D. Kozhevnikova Victor B. Ivanov Nadejda A. Soudzilovskaia Dzhamal K. Tekeev Fatima S. Salpagarova Marinus J. A. Werger Johannes H. C. Cornelissen 《Ecological Research》2014,29(4):529-534
Snow roots are specialized structures recently discovered in the Caucasian alpine snow-bed plant Corydalis conorhiza. They form extensive networks that grow into snow packs against gravity, most probably to gather nitrogen from snow. Here we test the hypothesis that snow roots are true winter organs, i.e., they should already start growth early in winter to lay down the infrastructure for N capture from snow packs well before their melt-out. This would require winter surface and soil temperatures continuously close to or above freezing. Excavations of snow roots from snow packs in January and May, accompanied by temperature recordings and anatomical observations, supported our hypothesis. These findings complete the annual cycle of snow root phenology. They also emphasize the evolutionary and ecological significance of these specialized winter organs. Moreover, their likely association with a particular abiotic temperature and snow regime will facilitate the search for snow roots in other species. 相似文献