Stand‐level drivers most important in determining boreal forest response to climate change

Boulanger, Yan; Price, David T.; Cyr, Dominic; Sainte-Marie, Guillaume

doi:10.1111/1365-2745.12892

Cited by 55 publications

(75 citation statements)

References 73 publications

(126 reference statements)

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“…For A. saccharum north of the 90th percentile, spring warming and recent natural disturbances interacted negatively, possibly limiting range expansion, whereas for F. grandifolia in the south, spring warming interacted positively with logging. It is possible that for some species, changes in the disturbance regime, including fire, may limit their ability to migrate and persist in the boreal forest (Boulanger, Taylor, Price, Cyr, & Sainte‐Marie, ). Using physiologically based simulations in the northeastern United States, Liang et al () reported that disturbances may expedite species' recruitment into new sites, but they had little effect on the velocity of simulated range boundary shifts.…”

Section: Discussionmentioning

confidence: 99%

Divergent responses to climate change and disturbance drive recruitment patterns underlying latitudinal shifts of tree species

2019

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Climate change is expected to result in a reorganization of the continental distribution of tree species. Recent shifts in distribution patterns have been reported, but it is not always clear how climate change influences these patterns locally, especially in relation to other disturbances. We investigated latitudinal shifts of four ecologically important tree species between 1970 and 2014 within a study area that encompasses their northernmost range limit in northeastern North America (Quebec, Canada; ~761,000 km2). Changes in latitudinal limits were defined in relation to changes in tree saplings’ occurrence patterns within forest plots resampled over two time periods (1970–1977 and 2003–2014). By examining changes in the frequency of occurrences in different portions of the study area along a latitudinal gradient, we were able to identify spatially explicit patterns of loss or gain (sapling recruitment) resulting in the shifts observed. We then estimated the probability of observing a recruitment event in response to changes in climate, disturbance and their interaction, using a multimodel selection approach. Latitudinal limits of all four species shifted northward, but these shifts resulted from different patterns of plot occurrence changes, depending on the species and the location examined. Greater recruitment at northern locations than at southern ones drove shifts for Acer saccharum Marsh., Fagus grandifolia Ehrh. and Acer rubrum L., but less so for Betula alleghaniensis Britt. Climate variables indicating changes in early or late growing season conditions were most often selected in models. Warming tended to reduce recruitment probability in the south but increase it in the north, leading to divergent responses for a given species across the study area. Disturbance effects were generally less important than climate change effects, as was their interaction. Synthesis. Spatially explicit and divergent responses to climate change and disturbance drive recruitment patterns underlying latitudinal shifts of tree species. The importance of early‐ or late‐season climate variables points towards biological processes being affected at critical stages of the life cycle. Understanding the factors that influence species’ migration capacity in a changing climate is crucial to inform adaptive management and conservation practices.

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Section: Discussionmentioning

confidence: 99%

Divergent responses to climate change and disturbance drive recruitment patterns underlying latitudinal shifts of tree species

2019

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“…Giuntoli et al (2018) review hydrologic land surface models for operational flood forecasts and demonstrate high variability in the complexity of plant dynamics. It is therefore not surprising that recent projections of future riverine flooding risk have focused so heavily on shifts in atmospheric forcing with simplified or static numerical representations of vegetation (e.g., Chen et al, 2018 ;Hirabayashi et al, 2013 ;Stryker et al, 2018) despite clear evidence for climate-driven changes in the density and composition of temperate forests (Boulanger et al, 2018;Dunckel et al, 2017).…”

Section: Justification Of Ecohydrologic Model Complexitymentioning

confidence: 99%

Possible Increases in Flood Frequency Due to the Loss of Eastern Hemlock in the Northeastern United States: Observational Insights and Predicted Impacts

Knighton

Conneely

Walter

2019

Water Resources Research

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Trees exert a fundamental control on the hydrologic cycle, yet previous research is unclear about the nuanced relationship between forest cover and riverine flood frequency. In the Northeastern United States, warming air temperatures have resulted in a decline of Eastern Hemlock (EH), and subsequent increases in observed catchment water yield. We evaluated the possibility of EH loss leading to a changed flooding regime. We first investigated plant hydraulic regulation by root water uptake in EH and American Beech (AB; a candidate successional species) through stable isotope analysis of stream, soil water, and plant xylem water. EH xylem water showed evidence of deeper soil water uptake than AB during both wet and dry seasons, suggesting species succession may be an important mechanism for altering catchment “plant accessible water.” Next, we estimated catchment flood frequency with mechanistic hydrologic simulations for present conditions, and two hypothetical cases where all EH is succeeded by AB. The largest change to catchment extreme discharge after AB succession coincided with fall season tropical moisture export‐derived precipitation. We observed reduced sensitivity under future climatic forcing with an ensemble simulation of five localized constructed analogs downscaled general circulation models. Thus, the influence of forest composition on the flood regime may be most related to the temporal alignment of the synoptic‐scale processes that generate Atlantic Basin tropical cyclones and regional plant phenology of the Northeast United States. Our results provide a justification for using physically based hydrologic models incorporating plant hydraulic regulation when evaluating future flooding frequency.

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“…The predictions achieved here are aimed to support strategic or long-term forest planning. Climate change-induced long-term changes in forest growth; however, are considered to have a more significant impact on forest conditions than both harvesting and natural disturbances [68]. We test only current forest management approaches, i.e., forest management specifications in Kupolis have been defined by best describing current forest management practices in Lithuania [41][42][43], or more precisely, as they have been during the last one to two decades.…”

Section: Incorporating Climate Change Effects In Decision Support Sysmentioning

confidence: 99%

Spatial Pattern of Climate Change Effects on Lithuanian Forestry

Mozgeris

Brukas

Pivoriūnas

et al. 2019

Forests

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Research Highlights: Validating modelling approach which combines global framework conditions in the form of climate and policy scenarios with the use of forest decision support system to assess climate change impacts on the sustainability of forest management. Background and Objectives: Forests and forestry have been confirmed to be sensitive to climate. On the other hand, human efforts to mitigate climate change influence forests and forest management. To facilitate the evaluation of future sustainability of forest management, decision support systems are applied. Our aims are to: (1) Adopt and validate decision support tool to incorporate climate change and its mitigation impacts on forest growth, global timber demands and prices for simulating future trends of forest ecosystem services in Lithuania, (2) determine the magnitude and spatial patterns of climate change effects on Lithuanian forests and forest management in the future, supposing that current forestry practices are continued. Materials and Methods: Upgraded version of Lithuanian forestry simulator Kupolis was used to model the development of all forests in the country until 2120 under management conditions of three climate change scenarios. Selected stand-level forest and forest management characteristics were aggregated to the level of regional branches of the State Forest Enterprise and analyzed for the spatial and temporal patterns of climate change effects. Results: Increased forest growth under a warmer future climate resulted in larger tree dimensions, volumes of growing stock, naturally dying trees, harvested assortments, and also higher profits from forestry activities. Negative impacts were detected for the share of broadleaved tree species in the standing volume and the tree species diversity. Climate change effects resulted in spatially clustered patterns-increasing stand productivity, and amounts of harvested timber were concentrated in the regions with dominating coniferous species, while the same areas were exposed to negative dynamics of biodiversity-related forest attributes. Current forest characteristics explained 70% or more of the variance of climate change effects on key forest and forest management attributes. Conclusions: Using forest decision support systems, climate change scenarios and considering the balance of delivered ecosystem services is suggested as a methodological framework for validating forest management alternatives aiming for more adaptiveness in Lithuanian forestry.

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Stand‐level drivers most important in determining boreal forest response to climate change

Cited by 55 publications

References 73 publications

Divergent responses to climate change and disturbance drive recruitment patterns underlying latitudinal shifts of tree species

Divergent responses to climate change and disturbance drive recruitment patterns underlying latitudinal shifts of tree species

Possible Increases in Flood Frequency Due to the Loss of Eastern Hemlock in the Northeastern United States: Observational Insights and Predicted Impacts

Spatial Pattern of Climate Change Effects on Lithuanian Forestry

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