CADIC   02618
CENTRO AUSTRAL DE INVESTIGACIONES CIENTIFICAS
Unidad Ejecutora - UE
artículos
Título:
Understory plant diversity assessment of Eucalyptus plantation over three vegetation type in Yunnan, China
Autor/es:
WANG, HF; LENCINAS, MV; ROSS FRIEDMAN, CM; WANG, XK; QIU, JX
Revista:
NEW FORESTS
Editorial:
SPRINGER
Referencias:
Año: 2011 vol. 42 p. 102 - 116
ISSN:
0169-4286
Resumen:
Biodiversity in managed plantations has become an important
issue for long term sustainability of ecosystems. The environmental effects of
plantations comprised of fast-growing introduced trees have been vigorously
debated. On one hand, monocultures have been said to exhaust resources,
resulting in decreased biodiversity. Conversely, it has been stated that
monocultures may favor regeneration of undergrowth plants from surrounding
forests, increasing biodiversity. In order to clarify the effects of planting Eucalyptus
trees on species composition, diversity, and functional type of understory
vegetation in Yunnan province, a field trial was implemented to compare Eucalyptus
plantations (EPs) with two other local current vegetation types (secondary
evergreen forests (SEs), and abandoned farmlands (AFs)). Each vegetation type
was sampled in each of three elevational ranges (low = 1,0001,400 meters above
sea level (masl), medium = 1,4001,800 masl, and high = 1,8002,200 masl).
Sample sites within each elevational range had similar environmental
characteristics (slope, aspect, etc.). Thus, we sampled three vegetation types
at each of three sites at each of three elevations for a total of 27 plots. We
calculated relative abundance and importance value of species and diversity
indexes to evaluate differences among local current vegetation types and
elevational ranges, employing multivariate ordination analyses and other
methods such as Analyses of Variance (ANOVA) and Indicator Species Analysis. We
found that fast growing introduced Eucalyptus plantations led to reduced plant
diversity in the study area, and that rare or threatened species were recorded
almost exclusively in the SE plots, being essentially absent from the EP and AF
plots. The understory plant diversity did not correlate with the altitude
gradient significantly. Eucalyptus plantations (EPs) have a simpler community
structure than that of either secondary evergreen forests (SEs; similar to natural
state) or abandoned farmlands (AFs). No variable significantly explained
variation of the understory shrub layer, but soil moisture-holding capacity and
overstory coverage were significant in explaining variation of the understory
herb layer, suggesting that the study of soil physical properties is necessary
for better understanding of their importance in Eucalyptus plantations and
other local current vegetation types.