1.) We investigated the potential of cross-scale interactions to affect the outcome of density reduction in a large-scale silvicultural experiment to better understand options for managing forests under climate change.
2.) We measured tree growth and intrinsic water-use efficiency (iWUE) based on stable carbon isotopes (d13C) to investigate impacts of...
1.) We investigated the potential of cross-scale interactions to affect the outcome of density reduction in a large-scale silvicultural experiment to better understand options for managing forests under climate change.
2.) We measured tree growth and intrinsic water-use efficiency (iWUE) based on stable carbon isotopes (d13C) to investigate impacts of...
1.) We investigated the potential of cross-scale interactions to affect the outcome of density reduction in a large-scale silvicultural experiment to better understand options for managing forests under climate change.
2.) We measured tree growth and intrinsic water-use efficiency (iWUE) based on stable carbon isotopes (d13C) to investigate impacts of...
1.) We investigated the potential of cross-scale interactions to affect the outcome of density reduction in a large-scale silvicultural experiment to better understand options for managing forests under climate change.
2.) We measured tree growth and intrinsic water-use efficiency (iWUE) based on stable carbon isotopes (d13C) to investigate impacts of...
1.) We investigated the potential of cross-scale interactions to affect the outcome of density reduction in a large-scale silvicultural experiment to better understand options for managing forests under climate change.
2.) We measured tree growth and intrinsic water-use efficiency (iWUE) based on stable carbon isotopes (d13C) to investigate impacts of...
1.) We investigated the potential of cross-scale interactions to affect the outcome of density reduction in a large-scale silvicultural experiment to better understand options for managing forests under climate change.
2.) We measured tree growth and intrinsic water-use efficiency (iWUE) based on stable carbon isotopes (d13C) to investigate impacts of...
Forest management is rapidly undergoing a transformation from a discipline based on efficient commodity production to one for multiple uses, especially on federally managed land in the United States. This new management paradigm has challenged silviculturists to develop and adapt forest management techniques that can deal with increased demands. Using...
Silvicultural regimes that aim at an increased stand structural diversity typically promote small-scale heterogeneity in horizontal and vertical structures, e.g. through the creation of gaps. We used terrestrial laser scanning (TLS) to investigate impacts of altered growing conditions on trees adjacent to artificial gaps as compared to responses of trees...
We examined the potential of using upslope density management to influence growth and drought tolerance of trees in untreated downslope riparian forests. Increment cores from Douglas-fir trees in three mature stands in western Oregon, USA, were collected and measured. Trees responded to an apparent edge effect up to 15 m...