Sybille Haeussler scite author profile

We compared prefire and postfire organic-layer depths in boreal forest types (14 fires) across Canada, and examined tree recruitment as a function of depth. There was extensive within-stand variation in depth, much of it due to clustering of thinner organic layers around boles. There were no significant differences in postfire organic-layer depth among sites with different prefire forest species composition, but sites in the eastern boreal region had thicker postfire organic layers than those in the western boreal region. Mean organic-layer depth was much greater in intact stands than after fires; overall, fire reduced organic-layer depth by 60%, largely because of increases in the area of thin (<3 cm) organic layers (1% in intact stands vs. 40% in postfire stands). There was more variation in organic-layer depth within postfire than within prefire stands; notably, some areas in postfire stands were deeply combusted, while adjacent parts were only lightly combusted. We speculate that the diminished role of energy loss to latent heat around tree boles increased organic-layer consumption around tree boles. Seedlings were clustered around burned tree bases, where organic layers were thinner, and the dependence of a species on thin organic layers was an inverse function of seed size.Résumé : Nous avons comparé l'épaisseur de la matière organique avant et après un feu dans différents types forestiers boréaux (14 feux) à travers le Canada et nous avons étudié le recrutement d'arbres en fonction de l'épaisseur de la matière organique. L'épaisseur de la matière organique variait beaucoup à l'intérieur des peuplements surtout parce que les couches plus minces étaient concentrées autour des arbres. Après un feu, il n'y avait pas de différence significative dans l'épaisseur de la matière organique entre les stations dont la composition avant le feu était différente, mais la matière organique était plus épaisse dans les stations de la forêt boréale de l'est que dans celles de la forêt boréale de l'ouest. Avant le feu, la matière organique des peuplements était plus épaisse qu'après le feu. De façon générale, le feu a diminué l'épaisseur de la couche de matière organique de 60 %, en grande partie à cause de l'augmentation de la surface couverte par une mince (<3 cm) couche de matière organique (1 % dans les peuplements non brûlés vs 40 % dans les peuplements brûlés). L'épaisseur de la matière organique était plus variable à l'intérieur des peuplements après le feu qu'avant le feu, notamment en raison des surfaces profondément brûlées qui côtoyaient des surfaces légèrement brûlées à la suite du passage du feu. Nous avançons l'hypothèse que la diminution de la perte d'énergie en chaleur latente autour des arbres cause une augmentation de la consommation de la couche organique autour des troncs. Les semis étaient regroupés autour de la base des arbres brûlés, là où la matière organique était plus mince, et la dépendance d'une espèce à la présence d'une mince couche de matière organique était une fonction inverse de la taille des...

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Plant community responses to mechanical site preparation in northern interior British Columbia

Haeussler¹,

Bedford²,

Boateng³

et al. 1999

Can. J. For. Res.

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Ten-year response of plant communities to disk trenching, plowing, rotoclearing and windrow burning was studied on two contrasting sites to address concerns that mechanical site preparation reduces structural and species diversity. Cover and height of all species on randomly located subplots within 0.05- to 0.075-ha treatment plots were used to develop indices of volume, structural diversity, and species diversity; to ordinate the plots; and to correlate species diversity with crop-tree performance. At both sites, community response was strongly influenced by the severity of site preparation. On a boreal site dominated by willow (Salix L. spp.), green alder (Alnus crispa (Ait.) Pursh ssp. crispa) and trembling aspen (Populus tremuloides Michx.), site preparation increased structural diversity and had little effect on species diversity. High-severity treatments increased non-native species abundance 10- to 16-fold while only marginally enhancing growth of planted white spruce (Picea glauca (Moench) Voss) over medium-severity treatments. On a nutrient-poor sub-boreal site, species diversity declined with increasing treatment severity and with increasing lodgepole pine (Pinus contorta var. latifolia Engelm.) stem volume. Velvet-leaved blueberry (Vaccinium myrtilloides Michx.) was highly sensitive to mechanical disturbance. Moderate mechanical treatments appear to improve conifer performance while causing little change to plant communities, but high severity treatments can cause substantial change.

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Sybille Haeussler

The reduction of organic-layer depth by wildfire in the North American boreal forest and its effect on tree recruitment by seed

Plant community responses to mechanical site preparation in northern interior British Columbia

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