Global ETD Search

1	Manipulation of overwintering habitats for invertebrate predators on farmland Thomas, Matthew Brian January 1991 (has links) No description available. 577 Cereal aphid predators
2	Factors limiting the effectiveness of Demetrias atricapillus (L.) (Coleoptera: Carabidae) as a predator of cereal aphids Coombes, D. S. January 1987 (has links) No description available. 577 Cerial aphid predators
3	Quantification of predation by polyphagous predators on Sitobion avenae (Homoptera:Aphididae) in winter wheat using ELISA Sopp, P. I. January 1986 (has links) No description available. 577 Predators of cereal aphids
4	The role of native and invasive amphipods (Crustacea) in freshwater communities Kelly, D. W. January 2001 (has links) No description available. 577 Amphipods; Predators; Predation
5	Aposematism Guilford, T. January 1987 (has links) No description available. 611 Animal coloration/predators
6	Alarm calls of Bronze Mannikins communicate predator size to familiar conspecifics Malan, G, Seoraj-Pillai, N, du Plessis, MA 09 December 2009 (has links) Summary This paper investigates, through experiments using surrogate predators, differences in intraspecific alarm calls between familiar and unfamiliar Bronze Mannikin Spermestes cucculatus groups. Four groups of mannikins were captured with mist nets from four areas in Durban (i.e. original groups) and randomly mixed (i.e. assorted groups). These groups were exposed to latex terrestrial snakes and mounted aerial raptors, and their alarm calls and predator response behaviours recorded. The Bronze Mannikins were able to discriminate between predators of different sizes, and increased their calling rate and decreased the end frequency of the alarm call in response to larger predators. This perhaps signalled increased threat, while simultaneously decreasing the conspicuousness of the flock. When the alarm call structure of the original and assorted groups in response to both raptors and snakes was compared, birds in original groups called more often, but paused longer between calls. Anti-predator behaviour differed in that assorted groups were less vigilant and aggressive toward the predators and panicked more frequently. In these groups, a failure to transfer the predation threat information might have caused the group to stop behaving cohesively and reliably. The manipulated experiments carried out in this study indicated that Bronze Mannikins were able to communicate predator size risk to conspecifics, but not as successfully to unfamiliar group members, showing that the investment, probability through altruistic payback, is greater in stable groups. Mannikins Surrogate predators
7	The grooming process of internet sexual predators Van Gijn, Evianne Laetitia January 2015 (has links) No description available. Online sexual predators
8	Management options for hedgerow vegetation : combining weed control with habitat improvement for predatory arthropods Dunkley, Felicity Ann January 1997 (has links) No description available. 577 Field margins; Polyphagous predators
9	Movement, dispersal and survival patterns of Swedish willow grouse (Lagopus lagopus lagopus L.) Smith, Alexander Adam January 1997 (has links) No description available. 577
10	Trophic effects on nutrient cycling Ngai, Zoology 11 1900 (has links) The top-down effects of consumers and bottom-up effects of resource availability are important in determining community structure and ecological processes. I experimentally examined the roles of consumers — both detritivores and predators — and habitat context in affecting nutrient cycling using the detritus-based insect community in bromeliad leaf wells. I also investigated the role of multiple resources in limiting plant productivity using meta analyses. The insect community in bromeliads only increased nitrogen release from leaf detritus in the presence of a predator trophic level. When only detritivores were present, the flow of stable isotope-labeled nitrogen from detritus to bromeliads was statistically indistinguishable from that in bromeliads lacking insects. I suggest that emergence of adult detritivores constitutes a loss of nitrogen from bromeliad ecosystems, and that predation reduces the rate of this nutrient loss. Hence, insects facilitate nutrient uptake by the plant, but only if both predators and detritivores are present. Moreover, predators can affect nutrient cycling by influencing the spatial scale of prey turnover. This mechanism results in a pattern opposite to that predicted by classic trophic cascade theory. Increasing habitat complexity can have implications for nutrient cycling by decreasing the foraging efficiency of both predators and their prey, and by affecting the vulnerability of predators to intraguild predation. Along a natural gradient in bromeliad size, I found that, depending on the relationship between community composition and habitat size, habitat complexity interacts with the changing biotic community to either complement or counteract the impact of predators on nutrient uptake by bromeliads. In contrast to the existing emphasis on single-resource limitation of primary productivity, meta-analyses of a database of 653 studies revealed widespread limitation by multiple resources, and frequent interaction between these resources in restricting plant growth. A framework for analyzing fertilization studies is outlined, with explicit consideration of the possible role of multiple resources. I also review a range of mechanisms responsible for the various forms of resource limitation that are observed in fertilization experiments. These studies emphasize that a wider range of predator and nutrient impacts should be considered, beyond the paradigm of single resource limitation or classic trophic cascades. Predators Nitrogen Primary production Phosphorus

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