BREEDING BIRD RESPONSE TO RIPARIAN BUFFER WIDTH IN MANAGED PACIFIC NORTHWEST DOUGLAS-FIR FORESTS

Swiss needle cast (SNC), caused by the fungus Phaeocryptopus gaeumannii, is producing extensive defoliation and growth reduction in Douglas-fir forest plantations along the Pacific Northwest coast. An SNC disease prediction model for the coastal area of Oregon was built by establishing the relationship between the distribution of disease and the environment. A ground-based disease survey (220 plots) was used to study this relationship. Two types of regression approaches, multiple linear regression and regression tree, were used to study the relationship between disease severity and climate, topography, soil, and forest stand characteristics. Fog occurrence, precipitation, temperature, elevation, and slope aspect were the variables that contributed to explain most of the variability in disease severity, as indicated by both the multiple regression (r 2 = 0.57) and regression tree (RMD = 0.27) analyses. The resulting regression model was used to construct a disease prediction map. Findings agree with and formalize our previous understanding of the ecology of SNC: warmer and wetter conditions, provided that summer temperatures are relatively low, appear to increase disease severity. Both regression approaches have characteristics that can be useful in helping to improve our understanding of the ecology of SNC. The prediction model is able to produce a continuous prediction surface, suitable for hypothesis testing and assisting in disease management and research.

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Impact of Nitrogen Fertilization on Forest Carbon Sequestration and Water Loss in a Chronosequence of Three Douglas-Fir Stands in the Pacific Northwest

Forests ◽

10.3390/f6061897 ◽

2015 ◽

Vol 6 (12) ◽

pp. 1897-1921 ◽

Cited By ~ 17

Author(s):

Xianming Dou ◽

Baozhang Chen ◽

T. Black ◽

Rachhpal Jassal ◽

Mingliang Che

Keyword(s):

Carbon Sequestration ◽

Pacific Northwest ◽

Water Loss ◽

Nitrogen Fertilization ◽

Douglas Fir ◽

Forest Carbon ◽

The Pacific ◽

Forest Carbon Sequestration

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Denitrification enzyme activity of Douglas-fir and Red Alder Forest soils of the Pacific Northwest

Soil Biology and Biochemistry ◽

10.1016/s0038-0717(97)00185-5 ◽

1998 ◽

Vol 30 (8-9) ◽

pp. 1147-1157 ◽

Cited By ~ 15

Author(s):

R.P. Griffiths ◽

P.S. Homann ◽

R. Riley

Keyword(s):

Enzyme Activity ◽

Pacific Northwest ◽

Forest Soils ◽

Douglas Fir ◽

Red Alder ◽

Alder Forest ◽

The Pacific ◽

Denitrification Enzyme Activity

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Canopy disturbances over the five-century lifetime of an old-growth Douglas-fir stand in the Pacific Northwest

Canadian Journal of Forest Research ◽

10.1139/x02-030 ◽

2002 ◽

Vol 32 (6) ◽

pp. 1057-1070 ◽

Cited By ~ 29

Author(s):

Linda E Winter ◽

Linda B Brubaker ◽

Jerry F Franklin ◽

Eric A Miller ◽

Donald Q DeWitt

Keyword(s):

Pacific Northwest ◽

Variable Density ◽

Tsuga Heterophylla ◽

Douglas Fir ◽

Western Hemlock ◽

Old Growth ◽

The Pacific ◽

History Of ◽

Horizontal Heterogeneity ◽

Restoration Strategies

The history of canopy disturbances over the lifetime of an old-growth Douglas-fir (Pseudotsuga menziesii (Mirb.) Franco) stand in the western Cascade Range of southern Washington was reconstructed using tree-ring records of cross-dated samples from a 3.3-ha mapped plot. The reconstruction detected pulses in which many western hemlock (Tsuga heterophylla (Raf.) Sarg.) synchronously experienced abrupt and sustained increases in ringwidth, i.e., "growth-increases", and focused on medium-sized or larger ([Formula: see text]0.8 ha) events. The results show that the stand experienced at least three canopy disturbances that each thinned, but did not clear, the canopy over areas [Formula: see text]0.8 ha, occurring approximately in the late 1500s, the 1760s, and the 1930s. None of these promoted regeneration of the shade-intolerant Douglas-fir, all of which established 15001521. The disturbances may have promoted regeneration of western hemlock, but their strongest effect on tree dynamics was to elicit western hemlock growth-increases. Canopy disturbances are known to create patchiness, or horizontal heterogeneity, an important characteristic of old-growth forests. This reconstructed history provides one model for restoration strategies to create horizontal heterogeneity in young Douglas-fir stands, for example, by suggesting sizes of areas to thin in variable-density thinnings.

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Keepability of Pennsylvania versus West Coast Grown Douglas-Fir Christmas Trees: Genotypic Variation in Relation to Subfreezing Temperatures

Northern Journal of Applied Forestry ◽

10.1093/njaf/7.2.86 ◽

1990 ◽

Vol 7 (2) ◽

pp. 86-89 ◽

Cited By ~ 3

Author(s):

Mark E. Kubiske ◽

Marc D. Abrams ◽

James C. Finley

Keyword(s):

Pacific Northwest ◽

Genotypic Variation ◽

Rocky Mountain ◽

Douglas Fir ◽

Seed Sources ◽

Christmas Trees ◽

Display Area ◽

The Pacific ◽

Significant Difference ◽

Needle Loss

Abstract Cut Douglas-fir Christmas trees grown in Pennsylvania from Rocky Mountain seed sources and coastal trees grown in the Pacific Northwest and shipped into Pennsylvania were compared for keepability. Following various cold treatments, the cut ends of trees were placed in water in an indoor display area. Coastal trees placed in a freezer at - 29°C for 24 h had 89 ± 5.1% (mean ± standard error) needle loss after one day of display, while Rocky Mountain origin trees exhibited only 3 ± 2.0% needle loss after 1 day and 50 ± 5.6% needle loss after 18 days. Coastal produced trees exposed to temperatures > - 12°C had 50 ± 9.8% needle loss at the end of the experiment, while Rocky Mountain trees ended with 22 ± 3.2% needle loss. Four additional treatments consisted of trees placed on an outdoor lot and periodically moved indoors to simulate Christmas tree market activity. Again, there was a significant difference between trees from coastal and Rocky Mountain sources, with 57.2 ± 4.3% and 11.8 ± 1.2% needle loss after 3 days, respectively. By the end of the 23 day experiment, the coastal trees were essentially devoid of needles, whereas Rocky Mountain trees had an average of only 20% needle loss. Coastal trees also exhibited a very noticeable loss of color and lustre. North. J. Appl. For. 7:86-89, June 1990.

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Soil texture and other site-level factors differentially affect growth of Scotch broom (Cytisus scoparius) and Douglas-fir (Pseudotsuga menziesii) seedlings in the western Pacific Northwest

Canadian Journal of Forest Research ◽

10.1139/cjfr-2021-0011 ◽

2021 ◽

Author(s):

David Carter ◽

Robert A. Slesak ◽

Timothy B. Harrington ◽

Anthony W. D’Amato

Keyword(s):

Pacific Northwest ◽

Pseudotsuga Menziesii ◽

Height Growth ◽

Douglas Fir ◽

Western Pacific ◽

Limiting Factor ◽

Cytisus Scoparius ◽

Invasive Shrub ◽

Scotch Broom ◽

The Western Pacific

The invasive shrub Scotch broom (Cytisus scoparius (L.) Link) is a pervasive threat to regenerating Douglas-fir (Pseudotsuga menziesii (Mirb.) Franco var. menziesii) stands in the Pacific Northwest, USA. Field observations indicate that the susceptibility of areas to Scotch broom invasion and dominance can vary by site. We selected ten sites throughout the western Pacific Northwest that spanned a gradient of soil textures and other factors to test the site-specific susceptibility of Douglas-fir to overtopping by Scotch broom. We expected to find that the ability of Scotch broom to dominate a site was mediated by site-level factors, particularly those influencing soil water – the most limiting factor to growth in the region. We found Scotch broom and Douglas-fir were inversely affected by site-level factors. In general, Douglas-fir absolute height growth rates were more competitive with those of Scotch broom on fine-textured soils than on more coarsely textured soils. We also found Douglas-fir to have a more dramatic response to increasing down woody material than Scotch broom. Scotch broom height growth approached an asymptote at 3 m. Sites with fast-growing Douglas-fir were able to surpass this height six to seven years after planting and appear likely to avoid suppression by Scotch broom.

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Dimensioning of riparian buffer zones in agricultural catchments at national level

10.5194/egusphere-egu21-12634 ◽

2021 ◽

Author(s):

Evelyn Uuemaa ◽

Ain Kull ◽

Kiira Mõisja ◽

Hanna-Ingrid Nurm ◽

Alexander Kmoch

Keyword(s):

Spatial Resolution ◽

National Level ◽

Agricultural Runoff ◽

Riparian Buffer ◽

Soil Types ◽

Buffer Zones ◽

Slope Length ◽

Local Flow ◽

Riparian Buffer Zones ◽

Buffer Width

Intensive agricultural production interferes with natural cycles of nutrients (mostly nitrogen and phosphorus) and may lead to water quality degradation due to excessive nutrient loadings. To mitigate this effect at the landscape level establishment of buffering vegetated strips is an efficient measure.Recommending optimal widths for riparian buffer zones to reduce the agricultural runoff is still a challenging task, in particular when considering the spatial variability of the landscape. Empirical-based approaches include assessment of terrain, soil types, land use and vegetation, and are often realised in computationally expensive hydrological simulation. However, trade-offs have to be made between spatial resolution and areal extent. Another elegant empirical-based approach are nomographs, where via triangulation of a specific slope length, terrain slope and soil type recommended buffer width can be easily calculated. Mander and Kuusemets (1998) already developed such a nomograph for Estonian catchments in 1998, yet, a computational use case has not been explored.We implemented the nomograph as a GIS algorithm in Python/QGIS to retrieve the recommended buffer width at national level. We synthesized a specific slope length via a weighted average of flow length, local flow accumulation and LS factor, and then use the specific slope length, slope derived from 5 m spatial resolution DEM and soil texture classes as inputs for the algorithm. We applied this algorithm and calculated recommendable buffer strip widths for the whole of country of Estonia, over an area of approx. 43,000 km2. We evaluated the uncertainty of the results as well the algorithm&#8217;s sensitivity to input weights.The developed algorithm is applicable in any region with relevant adjustments to local soil types. The result directly informs policy making by being able to more specifically decide and explain variations of buffer zone widths along water bodies.

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