Population dynamics of black spruce and white spruce near the arctic tree line in the southern Brooks Range, Alaska

2005 ◽  
Vol 35 (9) ◽  
pp. 2073-2081 ◽  
Author(s):  
Andrea H Lloyd ◽  
Alexis E Wilson ◽  
Christopher L Fastie ◽  
R Matthew Landis
Keyword(s):  
Population Dynamics ◽  
Seed Production ◽  
Matrix Model ◽  
Black Spruce ◽  
White Spruce ◽  
Adult Mortality ◽  
The Arctic ◽  
Tree Line ◽  
Northern Limit ◽  
Fire Intervals

Black spruce (Picea mariana (Mill.) BSP) is the dominant species in interior Alaska but it is largely absent from the arctic tree line. To evaluate the importance of climate and fire as controls over the species distribution, we reconstructed stand history at three sites near its northern limit in Alaska, where it grows with white spruce (Picea glauca (Moench) Voss). We developed a matrix model to explore black spruce population dynamics and response to varying fire intervals. All sites burned in the early 1900s. High recruitment of black spruce occurred for <30 years following the fire, but most current black spruce recruitment is clonal and seed viability is low. White spruce recruitment has been consistently high since the fire, and the majority of seedlings in the stands are white spruce. Despite low recruitment, the matrix model suggests that black spruce populations are nearly stable, largely because of low adult mortality rates. Although black spruce recruitment is stimulated by fire, the model indicates that fire intervals <350 years would destabilize the population, primarily because of slow growth and low seed production. Population dynamics of black spruce at its northern limit in Alaska thus appear to reflect an interaction between fire, which determines the temporal pattern of tree recruitment, and climate, which limits tree growth and, presumably, viable seed production.

scholarly journals Clonal variation in cone and seed production in black and white spruce seed orchards and management implications

1996 ◽  
Vol 72 (5) ◽  
pp. 475-480 ◽  
Author(s):  
Gregory W. Adams ◽  
Hartmut A. Kunze
Keyword(s):  
Seed Production ◽  
Management Practices ◽  
Black Spruce ◽  
White Spruce ◽  
Clonal Variation ◽  
Strong Positive Correlation ◽  
Management Options ◽  
Seed Orchards ◽  
Black And White ◽  
Orchard Management

Variation in cone and seed production across a range of clones in black and white spruce seed orchards was investigated in 1994. The purpose was to develop production information to be used with knowledge of orchard management practices to capture genetic gain more efficiently and improve clonal balance in orchard seedlots. Bulk cone collections were made from ten randomly selected trees for each of 48 clones and 60 clones of white spruce and black spruce, respectively. The average number of cones tree−1 was determined for each clone. Seeds were extracted and average seeds tree−1, seeds cone−1 and seeds g−1 were determined for each clone. Clones were ranked by cone and seed production and significant variation existed between the two ranks. For white spruce, a strong positive correlation was found between number of cones tree−1 and number of seeds, but the same was not found for black spruce, largely because some of the heaviest cone bearing clones produced lower amounts of sound seed. For both species, clones which produced more cones tree−1 tended to produce fewer seeds per cone and the seed was smaller than clones with more moderate levels of cone production. Clonal balance in cone and seed production is discussed with respect to practical orchard management options. Key words: clonal variation, cone and seed production, seed orchard, black spruce, white spruce

scholarly journals Seed Production in Grafted Clonal Orchards at Longlac, Ontario

1982 ◽  
Vol 58 (1) ◽  
pp. 31-34 ◽  
Author(s):  
J. A. McPherson ◽  
E. K. Morgenstern ◽  
B. S. P. Wang
Keyword(s):  
Seed Production ◽  
Picea Mariana ◽  
Picea Glauca ◽  
Black Spruce ◽  
White Spruce ◽  
Seed Orchard ◽  
Northern Ontario ◽  
Cone Production ◽  
Cone Development ◽  
Number Of Seeds

One seed orchard each of black spruce (Picea mariana) [Mill.] B.S.P.) and white spruce (Picea glauca) [Moench] Voss) was established in northern Ontario gradually during the 1958-78 period. Each species was represented by approximately 45 clones and 450 ramets. During the whole period, records were kept of cone production by individual ramets and of seed production by clones expressed as average number of seeds per cone extracted and germinated. Substantial cone production began 8 years after grafting in black spruce and after 10 years in white spruce. The figures indicated that a clonal orchard of black spruce planted at 5 × 5 m spacing (400 ramets) produces approximately 1 million sound seeds per ha per year; the white spruce equivalent is 900 000. Conditions of cone development and cone storage and damage by insects and fungi can reduce germination of the sound seed harvested by about 20%.

Spatiotemporal distribution of light rings in subarctic black spruce, Quebec

1991 ◽  
Vol 21 (12) ◽  
pp. 1828-1832 ◽  
Author(s):  
Ann Delwaide ◽  
Louise Filion ◽  
Serge Payette
Keyword(s):  
Spatial Distribution ◽  
Boreal Forest ◽  
Black Spruce ◽  
Hudson Bay ◽  
Tree Line ◽  
Northern Limit ◽  
The West ◽  
Forest Region ◽  
Boreal Forest Region ◽  
Light Ring

Numerous subfossil trees from the 13th, 14th, and 15th centuries sampled in the Rivière Boniface area (east of Hudson Bay) made it possible to extend to A.D. 1221 a previously published light-ring chronology. The spatial distribution of these diagnostic rings was studied along a south-north and a west–east transect in several sites extending from the northern limit of the Boreal Forest Region to the tree line. Data showed an increase in the number and frequency of light-ring years among populations along the south–north transect but little variations along the west–east transect.

scholarly journals The New Brunswick Tree Improvement Council is 20 years old

1997 ◽  
Vol 73 (5) ◽  
pp. 572-577 ◽  
Author(s):  
Dale Simpson ◽  
Kathleen Tosh
Keyword(s):  
New Brunswick ◽  
Seed Production ◽  
Black Spruce ◽  
White Spruce ◽  
Jack Pine ◽  
Tree Improvement ◽  
Team Work ◽  
Ongoing Research ◽  
Seed Orchards ◽  
Stem Straightness

Applied breeding programs in New Brunswick have been coordinated for the past 20 years by the New Brunswick Tree Improvement Council. First-generation programs for black spruce (Picea mariana [Mill.] BSP) and jack pine (Pinus banksiana Lamb.) consisted of seedling seed orchards and open-pollinated family tests, in contrast to those of white spruce (Picea glauca [Moench] Voss) and tamarack (Larix laricina [Du Roi] K.Koch), which were clonal seed orchards and control-pollinated progeny tests. Production from the seed orchards has been regular and heavy. In only 15 years, most reforestation stock was being grown from orchard seed. Early results from black spruce and jack pine realized gain tests indicate increases of 12 to 20% in volume growth by using genetically improved seed. This is double the prediction that was made when the program started. Stem straightness of jack pine trees has been improved by 25%. Second-generation programs of black spruce and jack pine are well underway and production from these orchards is steadily increasing. Indications are that gains from using this seed will be substantial. An ongoing research and development program has contributed to a more effective breeding program, has increased seed production, and has given further insights into wood quality. The success of the Council's program is due to excellent participation and team work by government, university and industrial agencies and their long-term commitment. Key words: seed production, tree improvement, black spruce, white spruce, jack pine, tamarack

scholarly journals A Comparison of some Upland and Valley Soils in the Ungava-Labrador Peninsula

2007 ◽  
Vol 38 (3) ◽  
pp. 243-256 ◽  
Author(s):  
William H. Hendershot
Keyword(s):  
Soil Temperature ◽  
Black Spruce ◽  
Carbon Accumulation ◽  
Shallow Depth ◽  
Soil Profiles ◽  
Tree Line ◽  
Climatic Regions ◽  
Coarse Texture ◽  
Active Mixing ◽  
Extractable Iron

ABSTRACT Thirteen soil profiles from northern Québec and Labrador, Canada, near the northern tree-line, were sampled and analysed. Five of these, located on poorly to imperfectly drained sites, are strongly cryoturbated soils with permafrost at a shallow depth. Below the surface horizon they have very uniform profile distributions of pH, carbon and extractable iron and aluminum due to the active mixing of the horizons. The eight soils from well-drained sites have profiles similar to those of soils in similar settings in more temperate climatic regions. One of these, developed in one of the most northerly valleys having a black spruce-larch forest vegetation, has the characteristics of a podzol (spodosol) except that the podzolic B (spodic) horizon is too thin. The other seven profiles all have color B horizons, although the coarse texture prevents their classification as cambic horizons; these soils all have carbon-rich A horizons varying in thickness from 1.5 to 20 cm. Soil temperature at 50 cm depth closely follows the elevational and latitudinal distribution of the soils; a range of 0 to 10° C was observed. Soil development, measured as depth of solum, organic carbon accumulation or degree of B horizon development, is closely related to soil temperature and site position. The presence of permanently frozen ice layers at shallow depth has a marked influence on soil genesis and the properties of the resultant soils.

Nutrient supply and belowground interaction alter responses to CO2 elevation in black spruce and white spruce

2020 ◽  
Vol 472 ◽  
pp. 118271 ◽  
Author(s):  
Qing-Lai Dang ◽  
Jacob Marfo ◽  
Fengguo Du ◽  
Md. Shah Newaz
Keyword(s):  
Black Spruce ◽  
White Spruce ◽  
Nutrient Supply ◽  
Co2 Elevation

Bud and crown architecture of white spruce and black spruce

Trees ◽  
2006 ◽  
Vol 20 (5) ◽  
pp. 633-641 ◽  
Author(s):  
Stephen J. Colombo ◽  
Colin W. G. Templeton
Keyword(s):  
Black Spruce ◽  
White Spruce ◽  
Crown Architecture

Root rot damage in naturally regenerated stands of spruce and balsam fir in Ontario

1989 ◽  
Vol 19 (3) ◽  
pp. 295-308 ◽  
Author(s):  
R. D. Whitney
Keyword(s):  
Root Rot ◽  
Black Spruce ◽  
Basal Area ◽  
Ground Level ◽  
White Spruce ◽  
Balsam Fir ◽  
Tree Age ◽  
Stand Age ◽  
Root Decay ◽  
Forest Region

In an 11-year study in northern Ontario, root rot damage was heaviest in balsam fir, intermediate in black spruce, and least in white spruce. As a result of root rot, 16, 11, and 6%, respectively, of dominant or codominant trees of the three species were killed or experienced premature windfall. Butt rot, which resulted from the upward extension of root rot into the boles of living trees, led to a scaled cull of 17, 12, and 10%, respectively, of gross merchantable volume of the remaining living trees in the three species. The total volume of wood lost to rot was, therefore, 33, 23, and 16%, respectively. Of 1108 living dominant and codominant balsam fir, 1243 black spruce, and 501 white spruce in 165 stands, 87, 68, and 63%, respectively, exhibited some degree of advanced root decay. Losses resulting from root rot increased with tree age. Significant amounts of root decay and stain (>30% of root volume) first occurred at 60 years of age in balsam fir and 80 years in black spruce and white spruce. For the three species together, the proportion of trees that were dead and windfallen as a result of root rot increased from an average of 3% at 41–50 years to 13% at 71–80 years and 26% at 101–110 years. The root rot index, based on the number of dead and windfallen trees and estimated loss of merchantable volume, also increased, from an average of 17 at 41–50 years to 40 at 71–80 years and 53 at 101–110 years. Death and windfall of balsam fir and black spruce were more common in northwestern Ontario than in northeastern Ontario. Damage to balsam fir was greater in the Great Lakes–St. Lawrence Forest region than in the Boreal Forest region. In all three tree species, the degree of root rot (decay and stain) was highly correlated with the number of dead and windfallen trees, stand age, and root decay at ground level (as a percentage of basal area) for a 10-tree sample.

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