CADIC   02618
CENTRO AUSTRAL DE INVESTIGACIONES CIENTIFICAS
Unidad Ejecutora - UE
artículos
Título:
Survival and growth of Nothofagus pumilio seedlings under several microenvironments after variable retention harvesting in southern Patagonian forests.
Autor/es:
MARTÍNEZ PASTUR, GUILLERMO; SOLER ESTEBAN, ROSINA; CELLINI, JUAN MANUEL; LENCINAS, MARIA VANESSA; PERI, PABLO; NEYLAND, MARK
Revista:
ANNALS OF FOREST SCIENCE (PRINT)
Editorial:
EDP SCIENCES S A
Referencias:
Lugar: Paris; Año: 2014 vol. 71 p. 349 - 362
ISSN:
1286-4560
Resumen:
Context Variable retention prescriptions
forNothofaguspumilioforestsallows forbiodiversity conservation and natural
regeneration by canopy opening. Harvesting generates different
microenvironments which present dissimilar conditions for seedling
establishment, due to positive or negative influencesover biotic and abiotic
factors.
AimsThis study evaluate seedling survival
and performance at different microenvironment within the harvested stands.
Tested hypotheses stated that seedling stress and performance were influenced
by harvesting due to changes in forest structure, microclimate, soil properties
and nutrient availability.
MethodsIn the harvested stands by variable
retention, five contrasting microenvironments were selected as treatments for
the experiments. Environmental variables were related to eco-physiological and seedling
survival and performance.
ResultsRemnantoverstorey modifies
microclimate through rainfall and solar radiation interception, and
consequently influences seedling stress and performance. Harvesting also
modifies soil properties (e.g., soil bulk density) and coarse woody debris
accumulation which influences soil moisture and/or solar radiation levels.The
analyses showed that seedlings obtained benefits of microenvironment variations
after harvesting. Providing the full range of microenvironments in the
post-harvesting stand will increase chance of achieving successful
regeneration.
ConclusionsTheproportion of different
microenvironments in harvested forests will determineearly regeneration
survival and performance. Among analysed microenvironments, covered areas with
middle or fine woody debris presented regeneration with better
eco-physiological response and seedling performance, although dispersed
retention areas (far away from remnant trees) and roads could also present suitable
conditions for seedling survival and performance.