Showing total 8 results

1. The post-fire shift of temperate white pine-birch forest to boreal balsam fir forest in eastern Canada: climate-fire implications.

Author

Payette, Serge, Frégeau, Mathieu, Couillard, Pierre-Luc, and Laflamme, Jason

Subjects

BALSAM fir, TAIGAS, PLANT identification, WHITE pine, CLIMATE change

Abstract

Copyright of Botany is the property of Canadian Science Publishing and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

2. Holocene climate change in Arctic Canada and Greenland.

Author

Briner, Jason P., McKay, Nicholas P., Axford, Yarrow, Bennike, Ole, Bradley, Raymond S., de Vernal, Anne, Fisher, David, Francus, Pierre, Fréchette, Bianca, Gajewski, Konrad, Jennings, Anne, Kaufman, Darrell S., Miller, Gifford, Rouston, Cody, and Wagner, Bernd

Subjects

*HOLOCENE Epoch, *SPATIO-temporal variation, *CLIMATE change

Abstract

This synthesis paper summarizes published proxy climate evidence showing the spatial and temporal pattern of climate change through the Holocene in Arctic Canada and Greenland. Our synthesis includes 47 records from a recently published database of highly resolved Holocene paleoclimate time series from the Arctic (Sundqvist et al., 2014). We analyze the temperature histories represented by the database and compare them with paleoclimate and environmental information from 54 additional published records, mostly from datasets that did not fit the selection criteria for the Arctic Holocene database. Combined, we review evidence from a variety of proxy archives including glaciers (ice cores and glacial geomorphology), lake sediments, peat sequences, and coastal and deep-marine sediments. The temperature-sensitive records indicate more consistent and earlier Holocene warmth in the north and east, and a more diffuse and later Holocene thermal maximum in the south and west. Principal components analysis reveals two dominant Holocene trends, one with early Holocene warmth followed by cooling in the middle Holocene, the other with a broader period of warmth in the middle Holocene followed by cooling in the late Holocene. The temperature decrease from the warmest to the coolest portions of the Holocene is 3.0 ± 1.0 °C on average (n = 11 sites). The Greenland Ice Sheet retracted to its minimum extent between 5 and 3 ka, consistent with many sites from around Greenland depicting a switch from warm to cool conditions around that time. The spatial pattern of temperature change through the Holocene was likely driven by the decrease in northern latitude summer insolation through the Holocene, the varied influence of waning ice sheets in the early Holocene, and the variable influx of Atlantic Water into the study region. [ABSTRACT FROM AUTHOR]

Published

2016

3. Spatiotemporal evolution of paludification associated with autogenic and allogenic factors in the black spruce–moss boreal forest of Québec, Canada.

Author

Le Stum-Boivin, Éloïse, Magnan, Gabriel, Garneau, Michelle, Fenton, Nicole J., Grondin, Pierre, and Bergeron, Yves

Subjects

TAIGAS, VEGETATION dynamics, JACK pine, BALSAM fir, FOREST soils, HUMUS

Abstract

Paludification is the most common process of peatland formation in boreal regions. In this study, we investigated the autogenic (e.g., topography) and allogenic (fire and climate) factors triggering paludification in different geomorphological contexts (glaciolacustrine silty-clayey and fluvioglacial deposits) within the Québec black spruce (Picea mariana)–moss boreal forest. Paleoecological analyses were conducted along three toposequences varying from a forest on mineral soil to forested and semi-open peatlands. Plant macrofossil and charcoal analyses were performed on basal peat sections (≤50 cm) and thick forest humus (<40 cm) to reconstruct local vegetation dynamics and fire history involved in the paludification process. Results show that primary paludification started in small topographic depressions after land emergence ca. 8000 cal yr BP within rich fens. Lateral peatland expansion and secondary paludification into adjacent forests occurred between ca. 5100 and 2300 cal yr BP and resulted from low-severity fires during a climatic deterioration. Fires that reduced or eliminated entirely the organic layer promoted the establishment of Sphagnum in microdepressions. Paludification resulted in the decline of some coniferous species such as Abies balsamea and Pinus banksiana. The paleoecological approach along toposequences allowed us to understand the spatiotemporal dynamics of paludification and its impacts on the vegetation dynamics over the Holocene. [ABSTRACT FROM AUTHOR]

Published

2019

4. Fires of the Last Millennium Led to Landscapes Dominated by Early Successional Species in Québec's Clay Belt Boreal Forest, Canada.

Author

Asselin, Maxime, Grondin, Pierre, Lavoie, Martin, and Fréchette, Bianca

Subjects

FOREST fires, FORESTS & forestry, TAIGAS, PLANT species, LANDSCAPES

Abstract

This study presents the long-term (over the last 8000 years) natural variability of a portion of the Picea mariana-moss bioclimatic domain belonging to Québec's Clay Belt. The landscapes are dominated by mesic-subhydric clay and early successional forests composed of Populus tremuloides, Pinus banksiana and Picea mariana. The natural variability (fires and vegetation) of one of these landscapes was reconstructed by means of pollen and macroscopic charcoal analysis of sedimentary archives from two peatlands in order to assess when and how such landscapes were formed. Following an initial afforestation period dominated by Picea (8000-6800 cal. Years BP), small and low-severity fires favored the development and maintenance of landscapes dominated by Picea and Abies balsamea during a long period (6800-1000 BP). Over the last 1000 years, fires have become more severe and covered a larger area. These fires initiated a recurrence dynamic of early successional stands maintained until today. A decline of Abies balsamea has occurred over the last centuries, while the pollen representation of Pinus banksiana has recently reached its highest abundance. We hypothesize that the fire regime of the last millennium could characterize Québec's Clay Belt belonging to the western Picea mariana-moss and Abies balsamea-Betula papyrifera domains. [ABSTRACT FROM AUTHOR]

Published

2016

5. Forced regressive deposits of a deglaciation sequence: Example from the Late Quaternary succession in the Lake Saint-Jean basin (Québec, Canada).

Author

Nutz, Alexis, Ghienne, Jean‐François, Schuster, Mathieu, Dietrich, Pierre, Roquin, Claude, Hay, Murray B., Bouchette, Frédéric, Cousineau, Pierre A., and Eyles, Nick

Subjects

GLACIAL melting, QUATERNARY Period, WATERSHEDS, SEDIMENTATION & deposition, PALEOGEOGRAPHY, PALEOCLIMATOLOGY

Abstract

Differentiating between forced regressive deposits from deglacial periods in high latitude domains and forced regressive deposits from the onset of glacial periods in low latitude domains is fundamental for the accurate interpretation of glacial cycles within the geological record and then for the reconstruction of palaeogeography and palaeo-climate. A forced regressive deglacial sequence is documented from the Lake Saint-Jean basin (Québec, Canada). In this area, the Late Pleistocene to Holocene sediments have recorded the Laurentide ice sheet retreat accompanied by the invasion of marine waters (Laflamme Gulf) from ca 12·9 cal kyr bp. Subsequently, fluvio-deltaic and coastal prograding wedges were deposited; they followed the base-level fall due to glacio-isostatic rebound. This succession, representing a transition from glacial to post-glacial periods within a previously glaciated area, was investigated through recent mapping, preserved landforms, facies analysis, and new optical stimulated luminescence and radiocarbon dates. Three basin-scale geological sections share a common lower part made of isolated ice-contact fan deposits overlying bedrock. Throughout the entire basin, ice-contact fans are capped by glacimarine muds. Above, fluvial and coastal prograding systems were deposited and evolved through four steps: (i) deltaic systems progressively increased in width; (ii) coastal influence on sedimentation increased; (iii) hydrographic drainage systems became more organised; and (iv) deltas graded from steep (Gilbert delta) to low-angle foresets (mouth-bar delta). Deposited during the base-level fall from glacio-isostatic rebound, the complete succession has been designated as a single falling stage system tract referred to as a deglacial falling stage system tract. It is representative of a deglaciation sequence in areas previously covered by ice during glacial periods (i.e. medium to high latitude domains). Diagnostic criteria are provided to identify such a deglacial falling stage system tract in the geological record, which may aid identification of previously unknown glacial cycles. [ABSTRACT FROM AUTHOR]

Published

2015

6. Latest Pleistocene and Holocene behaviour of Franklin Glacier, Mt. Waddington area, British Columbia Coast Mountains, Canada.

Author

Mood, Bryan J and Smith, Dan J

Subjects

PLEISTOCENE Epoch, ICE sheets, HOLOCENE Epoch, GLACIERS, MORAINES

Abstract

Franklin Glacier is an 18-km-long valley glacier that originates in a broad icefield below the west face of Mt. Waddington in the central British Columbia Coast Mountains, Canada. Radiocarbon-dated wood samples from the proximal faces of lateral moraines flanking Franklin Glacier show that the glacier expanded at least nine times since 13,000 cal. yr BP. A probable Younger Dryas advance of Franklin Glacier at 12,910–12,690 cal. yr BP followed the late glacial retreat and down wasting of the Cordilleran Ice Sheet from ca. 16,000 to 12,900 cal. yr BP. During the succeeding early Holocene warm period, Franklin Glacier appears to have retreated significantly, leaving no record of glacial expansion until the mid-Holocene when it repeatedly advanced at 6360–6280, 5470–5280 and 4770–4580 cal. yr BP. Down wasting of the glacier surface after ca. 4770–4580 cal. yr BP was followed by intervals of expansion at 4260–4080, 3210–3020 and 2620–2380 cal. yr BP. Following ice expansion at ca. 2620–2380 cal. yr BP into trees over 224 years in age, there is no record of the glacier activity until 1570–1480 cal. yr BP when Franklin Glacier thickened and advanced into young subalpine fir trees. During the ‘Little Ice Age’, advances at 800–680, 610–560 and 570–510 cal. yr BP preceded a mid-19th to early 20th century advance that saw Franklin Glacier attain its maximum Holocene extent. The dendroglaciological record at Franklin Glacier is among the most comprehensive recovered from the British Columbia Coast Mountains and showcases the complexity of mid- to late Holocene glacier expansion in the region. [ABSTRACT FROM AUTHOR]

Published

2015

7. The effects of forest fuel connectivity on spatiotemporal dynamics of Holocene fire regimes in the central boreal forest of North America.

Author

SENICI, DOMINIC, CHEN, HAN Y. H., BERGERON, YVES, and ALI, ADAM A.

Subjects

FOREST ecology, TAIGAS, SPATIAL variation, SPATIOTEMPORAL processes, TAIGA ecology, HOLOCENE stratigraphic geology

Abstract

ABSTRACT Understanding fire regime dynamics is central to predicting forest structure and the compositional dynamics of boreal forests. Spatial and temporal variations in fire frequency in central Canadian boreal forests over the last 10 000 years were examined to evaluate the influence of bottom-up controls on the regional fire regime. We analysed macroscopic charcoal larger than 160 μm from sediment cores from six lakes to reconstruct fire history and performed GIS analysis of regional landscape features to investigate how fire frequency has changed temporally and how non-climatic factors may have affected long-term fire frequency. Our generalized linear mixed model revealed that temporal changes in fire return intervals (FRIs) were highly dependent on landscape connectivity as inferred through the abundance of natural firebreaks in the form of open water lakes and wetlands. FRIs did not change significantly among highly connected landscapes throughout the Holocene; in contrast, FRIs were significantly longer among poorly connected landscapes in the early Holocene (10-5 cal ka BP), suggesting that the abundant regional firebreaks limited fire spread. All sites had similar FRIs in the late Holocene. The diminishing influence of firebreaks suggests that the regional climate during the late Holocene has overshadowed the influences of the bottom-up controls on fire activities. [ABSTRACT FROM AUTHOR]

Published

2015

8. Continental fens in western Canada as effective carbon sinks during the Holocene.

Author

Yu, Zicheng, Vitt, Dale H, and Wieder, R Kelman

Subjects

FENS, LANDFORMS, CARBON sequestration, HOLOCENE Epoch

Abstract

Here, we present results of Holocene carbon accumulation from seven new peat cores at four fen sites from Alberta, western Canada. Along with two other published fen records in the same region, we provide a regional synthesis of carbon accumulation patterns, as well as peat property data in this continental climate. On the basis of >3000 peat sample measurements at 1-cm intervals, organic matter content in peat samples is on average at 91.0% (±9.3% in SD) and ash-free bulk density at 0.141 g/cm3 (±0.045 g/cm3 in SD) with a range of 0.018–0.381 g/cm3. On the basis of 109 radiocarbon age determinations from these cores, the overall mean carbon accumulation rate at these fens since 9 kyr (1 kyr = 1000 cal. yr BP) is 32.5 g C/m2/yr, which is much higher than the northern peatland average of 18.6–22.9 g C/m2/yr from large-scale syntheses. The ‘instantaneous’ apparent carbon accumulation rates from all these individual measurements at mostly 1-cm intervals are highly variable throughout the Holocene, ranging from 6 to 504 g C/m2/yr. The carbon accumulation rates appear to show peak values at 8.3, 6.8, 5.3, 3.8, 2.7, and 1.1 kyr, suggesting a ~1500-year periodicity in carbon accumulation, possibly in response to Holocene climate change. Furthermore, carbon accumulation shows a gradual declining trend from 7 to 2 kyr, reaching a minimum at 2 kyr, likely in response to neoglacial climate cooling during the later part of the Holocene in the high-latitude regions. Overall, these fens accumulated and store on average 264 kg C/m2 during the Holocene, among the highest soil carbon storage reported from terrestrial ecosystems. Our results, along with previous global and regional syntheses, suggest that in contrast to conventional wisdom, fens in continental climates accumulate peat at similar or greater rates than do bogs in oceanic climates. [ABSTRACT FROM PUBLISHER]

Published

2014