2017
DOI: 10.3390/f8020045
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Regeneration Responses to Management for Old-Growth Characteristics in Northern Hardwood-Conifer Forests

Abstract: Successful tree regeneration is essential for sustainable forest management, yet it can be limited by the interaction of harvesting effects and multiple ecological drivers. In northern hardwood forests, for example, there is uncertainty whether low-intensity selection harvesting techniques will result in adequate and desirable regeneration. Our research is part of a long-term study that tests the hypothesis that a silvicultural approach called "structural complexity enhancement" (SCE) can accelerate the develo… Show more

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Cited by 13 publications
(10 citation statements)
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“…We collected these photos separately from survey plots to provide supplemental data on overstory canopy conditions, placing a digital camera on a self‐leveling tripod above understory vegetation. We processed photos using HemiView software (Version 2.1; Delta‐T Devices 2012, Burwell, Cambridgeshire, UK) after Gottesman and Keeton () to estimate proportion of visible sky (i.e., gap fraction) and leaf area index.…”
Section: Methodsmentioning
confidence: 99%
“…We collected these photos separately from survey plots to provide supplemental data on overstory canopy conditions, placing a digital camera on a self‐leveling tripod above understory vegetation. We processed photos using HemiView software (Version 2.1; Delta‐T Devices 2012, Burwell, Cambridgeshire, UK) after Gottesman and Keeton () to estimate proportion of visible sky (i.e., gap fraction) and leaf area index.…”
Section: Methodsmentioning
confidence: 99%
“…However, in our study, the contrast with no management was lowest across all carbon pools under SCE (17.45% less than baseline for live tree C) as compared to the conventional treatments (42.81% less than baseline for live tree C). This finding suggests great potential for low-intensity silvicultural techniques favoring in situ carbon storage in the northern hardwood region, assuming regeneration and other management objectives are met (Gottesman and Keeton 2017), which of course will vary tremendously by site and ownership (Schwenk et al 2012). The utility of management for in situ C storage must, of course, be considered within the larger context of carbon forestry, which includes approaches emphasizing carbon storage in wood products (FAO 2016) and avoided emissions from substitution of wood products for more energy-intensive materials (Malmsheimer et al 2008).…”
Section: Carbon Responses To Management For Old-growth Characteristicsmentioning
confidence: 90%
“…However, in our study, the contrast with no management was lowest across all carbon pools under SCE (17.45% less than baseline for live tree C) as compared to the conventional treatments (42.81% less than baseline for live tree C). This finding suggests great potential for low‐intensity silvicultural techniques favoring in situ carbon storage in the northern hardwood region, assuming regeneration and other management objectives are met (Gottesman and Keeton ), which of course will vary tremendously by site and ownership (Schwenk et al. ).…”
Section: Discussionmentioning
confidence: 99%
“…The management of Tsuga canadensis in particular, may include site preparation [30] and the removal of the pervasive competitor, Fagus grandifolia saplings, which are shade tolerant and also susceptible to beech bark disease [5]. Forest and natural resource managers have called for information on climate change effects that is easily accessible and easy to interpret and implement [14].…”
Section: Discussionmentioning
confidence: 99%
“…Foundational tree species that exhibit old-growth characteristics are of particular interest because of their high biomass and contributions to stand structure [5]. Tsuga canadensis is considered a foundational tree species as a late-successional conifer that shapes stand microclimate and influences community and ecosystem characteristics.…”
Section: Introductionmentioning
confidence: 99%