+ Site Statistics
References:
52,654,530
Abstracts:
29,560,856
PMIDs:
28,072,755
+ Search Articles
+ Subscribe to Site Feeds
Most Shared
PDF Full Text
+ PDF Full Text
Request PDF Full Text
+ Follow Us
Follow on Facebook
Follow on Twitter
Follow on LinkedIn
+ Translate
+ Recently Requested

Usage of phytoindication estimation for the forest ecosystem structure studying



Usage of phytoindication estimation for the forest ecosystem structure studying



Ukrayins'kyi Botanichnyi Zhurnal 54(1): 47-56



A possibility of forest ecosystems' horizontal structure multivariative analysis results interpretation by the ecological regimes' phytoindication has been shown. The main factors of mosaicity have extracted on the basis of large-scale mapping data principal component factoring. Additionally biological contents of principal axis determined on the species with the extreme ractor loading values. For example the horizontal structure of Tartaric maple oakery (Quercetum (roboris)-aceroso (tatarici)-anthriscosum) has been analysed. It was shown, that In conditions of salinised flood plain the first principal axis Identifies a marginal effects, the second-heterogeneity of the synantropic structure, the third marks undeisturbed clumps with nemoral species. It was confirmed the main role or marginal phenomena in the forest spatial composition of the southern steppe zone or Ukraine.

(PDF emailed within 1 workday: $29.90)

Accession: 009702163

Download citation: RISBibTeXText


Related references

Use of phytoindication estimation for studying forest ecosystem structure. Ukrainskii Botanichnii Zhurnal 54(1): 47-56, 1997

The use of phytoindication for studying the structure of forest ecosystems. Russian Journal of Ecology 28(5): 314-320, 1997

Data on soils justifying the phytoindication estimation of the trophic level in forest habitats. Lesovedenie (4): 3-12, 1987

Usage of ecosystem forest functions evaluation for the assessment of investment project realization influence to forest ecosystems on the example of natural preserve Klanovicky les - Cyrilov. Acta Scientiarum Polonorum: 2, 29-38, 2008

Research on the forest ecosystem series c the oak d crop with galeobdolon and oxalis at mesnil eglise ferage contribution no 24 methods for studying forest entomological cenoses. Bulletin de l'Institut Royal des Sciences Naturelles de Belgique 47(6): 1-10, 1971

Method of estimating ecosystem stability and dynamics on the basis of phytoindication. Ukrains' kii Botanichnii Zhurnal 55(6): 648-655, 1998

Forest site-quality estimation using Forest Ecosystem Classification in Northwestern Ontario. Environmental Monitoring and Assessment 39(1-3): 493-508, 1996

Behavior of radionudides in the forest ecosystem and the usage of soils contaminated with radionuclides. Shengtaixue Zazhi 24(2): 187-189, 2005

Phytoindication of lithoedaphic ecosystem elements in Chagyl and Tersakkan sands (Turkmeniya). Soviet Journal of Ecology( 1978); 8(3): 226-229, 1977

Phytoindication of displacement processes of lithoedaphic elements of the ecosystem in the Kulandag Mountains (Ustyurt). Soviet journal of ecology (pub 1979) 9(4): 311-314, 1979

Studying a response of epiphitic macrolichens to long-term applying (NH4)2SO4 in a forest ecosystem. Lesovedenie 0(2): 22-29, 1998

Scaling from plot experiments to landscapes: studying grasshoppers to inform forest ecosystem management. Oecologia 145(2): 225-234, 2005

New possibilities to interpret the structure of a forest ecosystem exemplified by a transitional forest. Beskydy 15: 95-100, 2002

A regional forest ecosystem carbon budget model: Impacts of forest age structure and landuse history. Ecological Modelling 164(1): 33-47, 1 June, 2003

The forest edge as a protection zone for the forest ecosystem. An analysis of the composition and structure of Collembola communities. Sylwan 145(2): 61-69, 2001