Mark T. Hemmerlein scite author profile

Mark T. Hemmerlein

5Publications

13Citation Statements Received

0Citation Statements Given

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Affiliations

University of Wyoming, University of Vermont

Publications

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Cold tolerance and water content of current-year red spruce foliage over two winter seasons

et al. 1993

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Red spruce (Picea rubens Sarg.) in high elevation forests of northeastern North America suffers from frequent and severe winter injury, leading to apical dieback, decreased growth, and high mortality. To examine the role of winter desiccation and freezing injury in winter damage, weekly assessments of cold tolerance and water content were made on current-year foliage collected from native red spruce trees at a high elevation site over two winter seasons. In both years, foliage maintained high water contents and adequate cold tolerance; nonetheless, slight to moderate injury was observed each year on some trees. Despite brief thaw periods each winter, no mid-winter dehardening sufficient to put foliage at risk of freezing injury was evident. These findings suggest that, at least in some years, winter injury to current-year red spruce foliage is produced by a mechanism other than desiccation or absolute low temperatures.

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Structural scaling of light interception efficiency in Picea engelmannii and Abies lasiocarpa

Hemmerlein

Smith²

1994

Tree Physiology

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Sunlight interception efficiency was compared at the leaf, shoot, branch and crown levels for Picea engelmannii (Parry) and Abies lasiocarpa ((Hook.) Nutt.), dominant tree species of the central Rocky Mountains, USA. The ratio of silhouette to total leaf area (STAR) was used to quantify the efficiency of direct-beam sunlight interception at each structural scale. Total mean reductions in STAR from the leaf to the crown level were 0.39 to 0.06 in P. engelmannii and 0.46 to 0.02 in A. lasiocarpa. These reductions in STAR occurred for both species as structural scale increased due to a more upright leaf inclination, increased leaf twisting and curvature, or greater mutual shading among plant structures. A steeper leaf inclination between the leaf and shoot level accounted for 26 +/- 19% (95% C.I.) of the total leaf-to-crown STAR reduction; mutual shading among leaves on shoots caused a 14 +/- 7% reduction, whereas leaf curvature and twisting accounted for 22 +/- 3% for a total reduction of 62 +/- 8%. The STAR varied slightly from the shoot to the branch level (+/- 7%) except for a 26% reduction in shade shoots of A. lasiocarpa as a result of increased mutual shading among leaves at lateral nodes. Another substantial reduction in STAR occurred from the branch to the crown level (35 +/- 3% of total) as a result of shading of one branch layer by another within the crown. Thus, light interception efficiency decreased as structural scale increased in both species, especially from the leaf to the shoot level and from the branch to the crown level.

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Techniques for pollution monitoring in remote sites: III. Near real-time monitoring of cloud water conductivity and pH

Hemmerlein

Perkins

1993

Water Air Soil Pollut

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Techniques for pollution monitoring in remote sites: I. Near real-time rainfall pH and depth

Jennings

Perkins

Hemmerlein

et al. 1992

Water Air Soil Pollut

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Techniques for pollution monitoring in remote sites: II. Ozone

Perkins¹,

Hemmerlein²,

Vogelmann³

1993

Water Air Soil Pollut

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