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Mammalian arylsulfatases A and B: relative rates of hydrolysis of artificial substrates (1986)

Thompson, D. B. ; Daniel, W. L.

Springer

Cellular and molecular life sciences 42 (1986), S. 150-151

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ISSN: 1420-9071

Keywords: Arylsulfatase A ; arylsulfatase B ; 4-methylumbelliferyl sulfate ; rodent ; bovine

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Rodent and bovine arylsulfatase B hydrolyze 4-methylumbelliferyl sulfate (4MUS) 10- to 30-fold more efficiently than arylsulfatase A. Therefore, 4MUS grossly underestimates arylsulfatase A activity in the presence of excess arylsulfatase B.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01952440

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Spatial organization of a desert rodent community: food addition and species removal (1987)

Bowers, M. A. ; Thompson, D. B. ; Brown, J. H.

Springer

Oecologia 72 (1987), S. 77-82

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ISSN: 1432-1939

Keywords: Desert ; Rodent community ; Food addition

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary From 1977 through 1983 we conducted experiments on a desert rodent community where supplemental seeds were added or certain rodent species and ants were removed from 0.25-ha fenced plots in a Chihuahuan Desert site in southeastern Arizona, USA. In this paper we examine the patterns of microhabitat use relative to vegetative cover by 11 rodent species. The results show that: i) removal of the largest seed-eating species, Dipodomys spectabilis, produced the most pervasive and dramatic shifts in microhabitat use by the remaining rodent species; ii) adding seeds or removing ants had little effect on the spatial use of microhabitats by rodents in this community; and iii) non-granivores were just as likely as granivores to shift microhabitat use when other granivores were removed. We believe these results indicate that both food and foraging microsites are limited but the relegation of subdominant species to lesspreferred microhabitats by the large Dipodomys spectabilis is the major factor underlying the spatial organization of this community. Results also demonstrate that strong interactions among species increase the probability that pathways of indirect interactions through intermediary species are important; these complex linkages may include species that overlap little in food preferences.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00385048

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Biodiversity in montane Britain: habitat variation, vegetation diversity and some objectives for conservation (1992)

Thompson, D. B. A. ; Brown, Alan

Springer

Biodiversity and conservation 1 (1992), S. 179-208

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ISSN: 1572-9710

Keywords: alpine ; vegetation diversity ; habitat conservation ; arctic alpine vegetation ; grazing impacts ; snowbeds

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The montane (low- to mid-alpine) zone in Great Britain (GB) lies above the potential tree-line (700–800 m, but descending to 200 m in the north). It is composed of moss and lichen heaths, snowbeds, blanket bog and dwarf-shrub (Ericaceae) health-covered solifluction/gelifluction terraces (38 communities/sub-communities). Approximately 3.0% of the land surface is covered by this- the most extensive predominantly near-natural terrestrial habitat in GB. Internationally distinctive features include oceanic and southern biotic outliers of arctic-alpine fellfield and mountain tundra, and plant communities that are either globally rare/localised or especially well represented in GB. The absence of extensive sub-alpineBetula spp. andSalix spp. scrub is striking. The main sources of habitat diversity are climate, regional variation in topography and geology, and regional modifications due to land-use impact. Over 50 examples are given. Five important gradients in Scottish Highland vegetation are described. Only some 15% of the sampled montane vegetation is anthropogenic; the rest is semi- or near-natural. The vegetation is divided into 5 functional groups: chionophobous (avoids snow), chionophilous (prefers snow), species-rich, mires (including springs and flushes), and anthropogenic. Chionophobous and then chionophilous communities contribute most to montane vegetation diversity (calculated here as the ShannonH diversity index).H diversity increases asymptotically with montane site area but linearly with the number of communities present. A more varied topography, geology and topo-climate gives the highestH diversity. Two examples of montane biodiversity reductions south of the Highlands are the loss of prostrateCalluna vulgaris heaths and modification ofRacomitrium lanuginosum healths. Five objectives for nature conservation are proposed, covering restoration of montaneR. lanuginosum healths, prostrate dwarf-shrub dominated heaths, sub-alpine scrub and upper treelines, and the extension of the breeding ranges of both ptarmigan (Lagopus mutus) and dotterel (Charadrius morinellus) south of the Scottish Highlands. International support for monitoring is sought.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00695915

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