Your search keyword '"Chika Kato"' showing total 4 results

1. Prey use by web-building spiders: stable isotope analyses of trophic flow at a forest-stream ecotone

Author

Chika Kato, Eitaro Wada, and Tomoya Iwata

Subjects

geography, geography.geographical_feature_category, Deciduous, δ13C, Ecology, Aquatic insect, Riparian forest, Ecotone, Biology, Ecology, Evolution, Behavior and Systematics, Trophic level, Riparian zone, Predation

Abstract

A forest-stream trophic link was examined by stable carbon isotope analyses which evaluated the relationship of aquatic insects emerging from a stream to the diets of web-building spiders. Spiders, aquatic and terrestrial prey, and basal resources of forest and stream food webs were collected in a deciduous forest along a Japanese headwater stream during May and July 2001. The δ13C analyses suggested that riparian tetragnathid spiders relied on aquatic insects and that the monthly variation of such dependence is partly associated with the seasonal dynamics of aquatic insect abundance in the riparian forest. Similarly, linyphiid spiders in the riparian forest exhibited δ13C values similar to aquatic prey in May. However, their δ13C values were close to terrestrial prey in both riparian and upland (150 m away from the stream) forests during June to July, suggesting the seasonal incorporation of stream-derived carbon into their tissue. In contrast, araneid spiders relied on terrestrial prey in both riparian and upland forests throughout the study period. These isotopic results were consistent with a previous study that reported seasonal variation in the aquatic prey contribution to total web contents for each spider group in this forest, implying that spiders assimilate trapped prey and that aquatic insect flux indeed contributes to the energetics of riparian tetragnathid and linyphiid spiders.

Published

2004

2. Stream food web fueled by methane-derived carbon

Author

Daisuke Kishi, Chika Kato, Ayato Kohzu, Eitaro Wada, Shigeru Nakano, Masashi Murakami, and Tomoya Iwata

Subjects

geography, geography.geographical_feature_category, Ecology, chemistry.chemical_element, Aquatic Science, Biology, Anoxic waters, Freshwater ecosystem, Food web, chemistry, Habitat, Hyporheic zone, Carbon, Bog, Ecology, Evolution, Behavior and Systematics, Hydrothermal vent

Abstract

Food webs driven by energy from the oxidation of methane are now recognized to be omnipresent in terrestrial and freshwater ecosystems (e.g. lakes, soils and peat bogs), as well as in deep-sea hydrothermal vents and cold seeps. However, the incorporation of methane-derived carbon into stream food webs has never been reported. Here we present the first circumstantial evidence from stable carbon and nitrogen isotope ratios that a stream food web composed of aquatic macro- invertebrates is partly sustained by methanotrophs or chemoautotrophs that gain carbon respired by methane-oxidizing bacteria. Methane-derived carbon seems to enter stream communities around anoxic habitats such as backwater pools and hyporheic zones. Because these reductive habitats exist in many streams, food webs partly sustained by methane-derived carbon are likely to be ubiquitous in lotic ecosystems.

Published

2004

3. Dynamics of aquatic insect flux affects distribution of riparian web-building spiders

Author

Daisuke Kishi, Tomoya Iwata, Chika Kato, and Shigeru Nakano

Subjects

Spider, geography, geography.geographical_feature_category, biology, Ecology, Insectivore, Ecotone, biology.organism_classification, Food web, Predation, Linyphiidae, Aquatic insect, Ecology, Evolution, Behavior and Systematics, Riparian zone

Abstract

The flux of emerging aquatic insects from streams can provide a significant energy subsidy to riparian web-building spiders. However, despite the high temporality of aquatic insect emergence, the effects of such aquatic insect dynamics on spider distribution are poorly understood. To examine the relationship, the aquatic insect flux from a headwater stream in a northern Japanese deciduous forest was experimentally manipulated by using a greenhouse-type covering, during May to July. Under natural conditions, the aquatic and terrestrial insect abundances dramatically decreased and increased from May through July, respectively. The experimental reduction of aquatic insect flux depressed the density of horizontal orb weavers (Tetragnathidae) in both May and June, but not in July when aquatic insects were scarce, indicating a temporal limitation on spider distribution by aquatic insect flux. In contrast, the densities of both vertical orb weavers (Araneidae) and sheet weavers (Linyphiidae) were unaffected by the manipulation throughout the study period. These various responses, differing among months or spider guilds, may be attributed to the degree of specialization for aquatic prey in the spiders and their mobility in response to aquatic insect flux. The experimental results provided direct evidence that the temporal dynamics of aquatic insect flux, as well as spider characteristics, were primary factors determining the distributional patterns of riparian web-building spiders.

Published

2003

4. The distribution and abundance of web-spiders : Effects of aquatic prey transfer from stream to forest

Author

Shigeru Nakano, Masashi Murakami, Tomoya Iwata, and Chika Kato

Subjects

Ecology, Abundance (ecology), business.industry, Environmental science, Distribution (economics), Electrical and Electronic Engineering, business, Atomic and Molecular Physics, and Optics, Predation

Published

2001