Registro Completo |
Biblioteca(s): |
Embrapa Pantanal. |
Data corrente: |
06/08/1997 |
Data da última atualização: |
03/04/2017 |
Autoria: |
GITAY, H.; ROXBURGH, S. H.; WILSON, J. B. |
Título: |
Species-area relation in a New Zealand tussock grassland, with implications for nature reserve design and for community structure. |
Ano de publicação: |
1991 |
Fonte/Imprenta: |
Journal of Vegetation Science, v.2, n.1, p.113-118, 1991. |
Idioma: |
Inglês |
Conteúdo: |
A tussock grassland, in Blackrock Reserve, New Zealand, was sampled thoroughly at scales ranging from 0.01 m x 0.01 m to 20 m x 20 m, to investigate species-area relations of relevance to plant community structure, and to offer a pointer to reserve design. In total, 96 species were found. Of the native vascular species among these, 20% were new records for the reserve. For the total and the native vascular flora the observed points fell midway between the Arrhenius and Gleason fitted curves. Cryptogams fitted the Arrhenius model well, with close to the 0.26 value expected for isolates under Preston's Canonical hypothesis. Extrapolation of the Arrhenius curve to the whole of the New Zeland uplands gave valkues far too large; the Gleason curve gave values much too low. A General Root model is introduced. It fits the observed species richnesses at various quadrat sizes considerably better than previous models. When biogeographic limitations on species richness are included, extrapolation of the General Root curve accurately predicts the size of the upland flora. This fit, the lack of an asymptote, and the rarity structure, are compatible with a random and individuaistic model of community structure. However, there are differences in species-area relation between vascular and cryptogamic plants, which cautions against expecting any universal type of community structure. Extrapolations using the General Root model suggest that if the ideal is a 10 km x 10 km reserve, a reserve one tenth that size would contain 81% of the native species in that ideal, and the present Blackrock Reserve contains 67%. MenosA tussock grassland, in Blackrock Reserve, New Zealand, was sampled thoroughly at scales ranging from 0.01 m x 0.01 m to 20 m x 20 m, to investigate species-area relations of relevance to plant community structure, and to offer a pointer to reserve design. In total, 96 species were found. Of the native vascular species among these, 20% were new records for the reserve. For the total and the native vascular flora the observed points fell midway between the Arrhenius and Gleason fitted curves. Cryptogams fitted the Arrhenius model well, with close to the 0.26 value expected for isolates under Preston's Canonical hypothesis. Extrapolation of the Arrhenius curve to the whole of the New Zeland uplands gave valkues far too large; the Gleason curve gave values much too low. A General Root model is introduced. It fits the observed species richnesses at various quadrat sizes considerably better than previous models. When biogeographic limitations on species richness are included, extrapolation of the General Root curve accurately predicts the size of the upland flora. This fit, the lack of an asymptote, and the rarity structure, are compatible with a random and individuaistic model of community structure. However, there are differences in species-area relation between vascular and cryptogamic plants, which cautions against expecting any universal type of community structure. Extrapolations using the General Root model suggest that if the ideal is a 10 km x 10 km reserve, a reserve on... Mostrar Tudo |
Palavras-Chave: |
Arrhenius; Community; Comunidade; Conservation; Gleason; Plant. |
Thesagro: |
Conservação; Espécie; Planta. |
Thesaurus Nal: |
cryptogams. |
Categoria do assunto: |
-- |
Marc: |
LEADER 02347naa a2200265 a 4500 001 1791426 005 2017-04-03 008 1991 bl --- 0-- u #d 100 1 $aGITAY, H. 245 $aSpecies-area relation in a New Zealand tussock grassland, with implications for nature reserve design and for community structure. 260 $c1991 520 $aA tussock grassland, in Blackrock Reserve, New Zealand, was sampled thoroughly at scales ranging from 0.01 m x 0.01 m to 20 m x 20 m, to investigate species-area relations of relevance to plant community structure, and to offer a pointer to reserve design. In total, 96 species were found. Of the native vascular species among these, 20% were new records for the reserve. For the total and the native vascular flora the observed points fell midway between the Arrhenius and Gleason fitted curves. Cryptogams fitted the Arrhenius model well, with close to the 0.26 value expected for isolates under Preston's Canonical hypothesis. Extrapolation of the Arrhenius curve to the whole of the New Zeland uplands gave valkues far too large; the Gleason curve gave values much too low. A General Root model is introduced. It fits the observed species richnesses at various quadrat sizes considerably better than previous models. When biogeographic limitations on species richness are included, extrapolation of the General Root curve accurately predicts the size of the upland flora. This fit, the lack of an asymptote, and the rarity structure, are compatible with a random and individuaistic model of community structure. However, there are differences in species-area relation between vascular and cryptogamic plants, which cautions against expecting any universal type of community structure. Extrapolations using the General Root model suggest that if the ideal is a 10 km x 10 km reserve, a reserve one tenth that size would contain 81% of the native species in that ideal, and the present Blackrock Reserve contains 67%. 650 $acryptogams 650 $aConservação 650 $aEspécie 650 $aPlanta 653 $aArrhenius 653 $aCommunity 653 $aComunidade 653 $aConservation 653 $aGleason 653 $aPlant 700 1 $aROXBURGH, S. H. 700 1 $aWILSON, J. B. 773 $tJournal of Vegetation Science$gv.2, n.1, p.113-118, 1991.
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Registro original: |
Embrapa Pantanal (CPAP) |
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