by André Boily | 30 January 2019
2006-2007 Annual Report, Committee on the Environment of the Conference of New England Governors and Eastern Canadian Premiers, Halifax, N.S., 12 p.
The Forest Mapping Work Group has undertaken to map the sensitivity of the entire New England Governor and Eastern Canadian premier (NEG/ECP) jurisdictions’ forests to atmospheric sulfur and nitrogen deposition loadings. Unprecedented for level of detail and size of area studied, this comprehensive project is the first scientific large-scale study of forest sensitivity to sulfur and nitrogen deposition in northeastern North America.
by André Boily | 30 January 2019
Published in Novak, M., P. Brimblecombe, D. Houle and A. Veron (eds.). Applied Geochemistry. Elsevier, 22. 178 p. https://doi.org/10.1016/j.apgeochem.2007.03.001
by Claire Morin | 30 January 2019
Published in Forest Ecology and Management 255: 2049-2060
Ammonium nitrate (NH4NO3) was applied monthly (from June to October) for 3 years in a balsam fir (Abies balsamea (Linné) Miller) and a black spruce (Picea mariana (Mill.) BSP) boreal forest in Québec (Canada). The design was composed of nine experimental units of 10 m x 10 m for each site. Application rates were 3 and 10 times the atmospheric N deposition measured at each site which was 6 and 3 kg ha-1 year-1 for the fir and the spruce sites, respectively. Soil solution composition (30 and 60 cm), tree growth, and foliar concentrations were analysed. The inorganic N in the soil solution of the control plots of both sites was low, particularly at the spruce site indicating that these forests are actively accumulating the atmospheric deposited N. Nitrogen additions regularly caused sudden and large inorganic N increases in the soil solution at both sites, both treatments and both sampling depths. However, these increases were transitory in nature and no persistent changes in inorganic N were observed. It was estimated that more than 95% of the added N was retained above the rooting zone at both sites. Nitrogen addition increased N, Ca, Mg and Mn foliar concentrations at the black spruce site but had no effects at the balsam fir site. After 3 years of N application, tree growth was similar in the control and the treated plots at both sites. Our results show that slow growing black spruce boreal forests with low ambient N deposition are responsive (in term of foliar N, Ca, Mg and Mn concentrations) to even small increases in N inputs, compared to higher growth balsam fir boreal forests with higher N deposition.
by Svetlana Savin | 30 January 2019
Published in Canadian Journal of Botany 85: 1082-1091
The increasing use of exotic and hybrid poplar species in forestry and the lack of genetic barriers between most poplar species may present a risk to the genetic imtegrity of native poplar species. To monitor any spontaneous hybridization and (or) introgression from exotics into native species, it is essential to have a system for the quick and reliable identification of species. We developed a set of single nucleotide polymorphism (SNP) markers that allows the distinction between five commercially important species of poplar (Populus balsamifera L., Populus deltoides Marsh., Populus trichocarpa Toor. ex Gray, Populus nigra L., and Populus maximowiczii Henry) and their hybrids. Six genomic regions spanning 6.1 kb were screened at the DNA sequence level to search for discriminating SNPs among the five species. A total of 245 SNPs and indels were found, 86 of which were species specific. A subset of 12 species-specific SNPs was chosen for use with high-throughput SNPstream technology. In addition, 32 species-specific SNPs and indels were found that can be assayed using restriction enzymes. Application of the developed markers to a set of hybrid clones showed that the markers are not only useful for monitoring introgression but also for the verification of breeding material.
by Svetlana Savin | 30 January 2019
Report published on November 13, 2007. 10 p.
