Seral stage, site conditions, and the vulnerability of understory plant communities to forest harvesting /

Smith, Jason Richard.

January 2005

Research Project (M.R.M.) - Simon Fraser University, 2005. / Theses (School of Resource and Environmental Management) / Simon Fraser University. Research Project (School of Resource and Environmental Management) / Simon Fraser University.

Predicting measures of diversity for forest regeneration using site and overstory variables a regression approach /

Jones, Jeffrey W.

January 2004

Thesis (M.S.)--West Virginia University, 2004. / Title from document title page. Document formatted into pages; contains v, 50 p. : ill. (some col.), maps (some col.). Includes abstract. Includes bibliographical references (p. 35-38).

The effects of harvesting Macrocystis pyrifera on understory algae in Carmel Bay, California

Kimura, Robert Scott.

January 1980

Thesis (M.A.)--California State University, Fresno, 1980. / Includes bibliographical references (leaves [104]-108).

Probabilistic modeling of understory vegetation species in a northeastern Oregon industrial forest /

Yost, Andrew Charles.

January 1900

Thesis (Ph. D.)--Oregon State University, 2006. / Printout. Includes bibliographical references (leaves 144-157). Also available on the World Wide Web.

Introdução de espécies de sub-bosque em áreas de restauração de florestas estacionais semideciduais / Introduction of Understory species in Brazilian Seasonal Semidecidual Forests restoration areas

Mariana Meireles Pardi

07 February 2014

Espécies típicas de sub-bosque são pouco estudadas quanto à sua aplicação na restauração e enriquecimento de florestas degradadas. São em geral arvoretas ou arbustos finais de sucessão, tolerantes ao sombreamento, capazes de germinar, se estabelecer e completar seu ciclo de vida neste ambiente, representando importante fonte de recursos como alimento e abrigo para polinizadores e dispersores. Porém, não são amplamente utilizadas nos plantios de restauração por não serem espécies de dossel, e em paisagens altamente fragmentadas há poucas chances de chegarem naturalmente em áreas em processo de restauração. Visando contribuir para o desenvolvimento de técnicas de plantio e enriquecimento em áreas degradadas ou em processo de restauração que favoreçam a recuperação do subbosque, este trabalho teve o objetivo de avaliar a sobrevivência e o crescimento de mudas de 10 espécies típicas de sub-bosque plantadas em quatro diferentes condições: plantio inicial de restauração, áreas em processo de restauração com 5 e 10 anos de idade e um fragmento remanescente degradado. Todas as áreas de estudo localizam-se na região de Batatais, SP e estão inseridas no Bioma Mata Atlântica, mais especificamente na fisionomia de Floresta Estacional Semidecidual. As mudas foram plantadas em janeiro de 2012 e observadas durante 15 meses quanto ao crescimento e sobrevivência. As áreas de estudo foram caracterizadas quanto aos atributos químicos, físicos e granulométricos do solo, cobertura e florística do dossel. A análise de componentes principais (PCA) mostrou que entre estas variáveis a que teve maior relação com o crescimento relativo das mudas foi a cobertura do dossel. A área que teve maior eficiência na introdução das espécies típicas de sub-bosque, considerando crescimento e sobrevivência, foi o plantio inicial de restauração, onde 3 espécies foram muito eficientes e 6 foram eficientes. No plantio com 5 anos 1 espécie foi muito eficiente e 4 foram eficientes, porém, cresceram bem menos que no plantio inicial. Os resultados apontaram ainda que apenas 3 espécies foram eficientes na área em processo de restauração de 10 anos e nenhuma no fragmento remanescente degradado, mostrando a dificuldade de se realizar o enriquecimento de áreas com alto nível de sombreamento, e de se reverter o processo de degradação nessas áreas, reforçando a importância da utilização de alta diversidade de espécies e grupos funcionais nos plantios de restauração e da conservação das áreas florestais remanescentes. / Species typical from understory layers are poorly studied regarding their use in restoration and enrichment of degraded forests. They are generally treelets or shrubs of final successional phase, shade tolerant, able to germinate, establish and complete their life cycle in this environment. They are an important source of resources as food and shelter to pollinators and dispersers. Despite their ecological importance, these plants have not been widely used in restoration plantings because they are not canopy species. In fragmented landscapes, these species have little chance of being recruited naturally into areas undergoing restoration. In order to contribute to the development of techniques of planting and enrichment in degraded areas or areas being restored and promote the recuperation of understory layers, this study evaluated the survival and growth of seedlings of 10 understory species planted under four different conditions: initial planting; 5-year-old restoration area; 10- year-old restoration area; and degraded forest fragment. All sites are located in the region of Batatais, SP, Brazil, inside the Atlantic Forest biome, specifically in the Seasonal Semidecidual Forest type. Seedlings were planted in January 2012 and measured during 15 months for their survival and growth. Study sites were characterized regarding soil chemical and physical attributes and granulometry, and canopy composition and coverage. Principal components analysis (PCA) showed that relative growth of seedlings was more strongly related to canopy coverage. Considering survivorship and growth, introduction of understory species was more successful at the initial planting site, where three species were very successful and six were successful. In the 5-year-old restoration area, one species was very successful and four were considered successful, however, they grew considerably less than at the initial planting site. Results point out that only three species were successful at the 10-year-old restoration area and none at the forest fragment, which shows the difficulty of enriching areas with high levels of shading, and thus, the difficulty of reversing degradation of forest remnants. This reinforces the importance of using high diversity of species and functional groups in restoration plantings and also of conserving remnant forests.

Enriquecimento

Restauração

Sub-bosque

Enrichment

Restoration

Understory

Conifer regeneration, understory vegetation and artificially topped conifer responses to alternative silvicultural treatments /

Huff, Tristan.

January 1900

Thesis (M.S.)--Oregon State University, 2009. / Printout. Includes bibliographical references (leaves 73-77). Also available on the World Wide Web.

Similarities in understory vegetation composition between unthinned, thinned and old-growth Douglas fir stands in western Oregon

Mayrsohn, Cheryl

13 September 1995

Forest stands were studied to determine if old-growth forest structure could be mimicked in younger stands via overstory manipulation. Cover and species composition of understory plants were systematically sampled in sixteen thinned second-growth stands and sixteen adjacent unthinned second-growth Douglas fir (Pseudotsuga menziesii (Mirabel) Franco.) stands. The stands were thinned twenty-four to thirteen years ago. These were compared to seven nearby old-growth stands. Thinned and unthinned stands had matching elevations, aspect, and soils, yet differed primarily in management treatment. Leaf area indices were determined for these stands. Thinned stands differed from the old-growth and unthinned stands in having significantly higher cover values and species numbers, apparently resulting from increased light to the forest floor and a greater variety of microhabitats created by thinning. Young unthinned and old-growth stands were comparable in terms of cover and richness, but differed in species composition. Diversity indices showed no difference in species diversity between the three types of stands. Ordination of the species/sample data using Detrended Correspondence Analysis showed that understory species composition of the young unthinned and thinned stands was nearly identical. Species composition of old-growth stands differed from thinned and unthinned stands. The ordination indicated that age of the stands, structure of the canopy layers and climate were major determining factors in the species composition of the understory plant communities. Management manipulation of the second growth stands did not yield stands with understory vegetation communities that mimicked those of old-growth stands. The conclusions of this study were: 1) Shrub cover increased with thinning as compared to unthinned and old-growth stands. 2) Thinning increased the species richness of the stands, without increasing the number of exotics. 3) Diversity was not altered by thinning. Old-growth, thinned and unthinned stands did not differ in diversity values. 4) Patterns of community composition in thinned stands were more similar to unthinned equivalent stands than to nearby old-growth. / Graduation date: 1996

Understory plants -- Oregon

Understory plants -- Cascade Range

Understory plants -- Coast Ranges

Forest ecology -- Oregon

Forest ecology -- Cascade Range

Forest ecology -- Coast Ranges

Understory Plant Responses to Uneven-Aged Forestry

Smith, Kimberly J.

12 September 2007

In northern hardwood-conifer forests, alternatives to conventional forest management practices are being developed in order to maintain biodiversity and ecosystem functioning while providing for timber revenue generation. The understory layer of vegetation encompasses the majority of plant species diversity in forested ecosystems and may be sensitive to timber harvest disturbance. Thus, monitoring the response of forest understories to new silvicultural techniques may provide a means for evaluating their intensity. In this study, we hypothesize that i) uneven-aged, low-intensity silvicultural systems can maintain understory plant diversity and support latesuccessional species through harvest disturbance; ii) retaining and enhancing stand structural complexity can increase understory plant diversity in northern hardwoodconifer forests; and iii) plant responses are influenced by interactions between canopy structure, soils, and exogenous climate processes. Experimental treatments include two conventional uneven-aged prescriptions (single-tree selection and group selection) modified to increase structural retention, and a third technique designed to promote late-successional forest structure and function, termed structural complexity enhancement (SCE). Four replications of each treatment were applied to 2 ha management units at three sites in Vermont and New York, U.S.A. Understory vegetation was monitored over 2 years pre- and 4 years post-treatment. We used a linear mixed effects model to evaluate the effects of treatment, soil properties, and drought stress on understory diversity and abundance. Compositional changes among treatments were assessed with non-metric multidimensional scaling (NMS), an ordination technique. Model results show that over time, understory responses were strongly affected by overstory treatment and less influenced by soil chemistry and drought stress. All treatments were successful in maintaining overall composition and diversity. However, late-successional diversity increased significantly in SCE units compared to group selection units. These results indicate that while conventional uneven-aged systems are capable of maintaining understory plant diversity, variations that retain or enhance structural complexity may be more efficient at retaining latesuccessional species. Increased microsite heterogeneity as a result of these techniques may also increase understory plant diversity, at least during the initial post-harvest recovery period.

Understory Plant

Northern Hardwood

Structural Complexity

Forestry Alternatives

Diversity

Assessing understorey structural characteristics in eucalypt forests: an investigation of LiDAR techniques.

Goodwin, Nicholas R., School of Biological, Earth & Environmental Sciences, UNSW

January 2006

The potential of airborne LiDAR technology to quantify forest structure within eucalypt forests has been evaluated with a focus on the understorey stratum. To achieve this, three studies have been undertaken using multiple (4) LiDAR datasets acquired over three test areas located in Wedding Bells State Forest, Coffs Harbour, Australia. Initially, the effects of sensor configuration were evaluated using field measurements collected from three structurally and topographically differing field plots (40 x 90 m areas). Results indicated that canopy height profiles derived from LiDAR data at the plot scale were largely unaffected by a change in platform altitude from 1000 to 3000 m (p &gt 0.05). In addition, the derivation of individual tree attributes was found to be highly sensitive to the density of LiDAR observations whilst higher platform altitudes showed an increased proportion of single returns over forested areas. In the second study, an innovative field based approach was developed to sample the structure of the understorey (horizontally and vertically) for LiDAR validation purposes. Using two separate LiDAR datasets, this research confirmed that mean understorey height and understorey cover can be effectively mapped in areas of low to medium canopy cover whilst no significant relationship (p &gt 0.05) was identified between field and LiDAR estimates of maximum understorey height. In the third study, an optimised LiDAR beam interception model was developed and validated, and then applied to assess the interaction of extrinsic and intrinsic factors of the LiDAR survey. This demonstrated that the probability of beam interception through the forest canopy can be affected by factors both intrinsic (e.g. crown cover) and extrinsic (e.g. scan angle) to the structure of the canopy. Overall, the results of this research indicate that optimising the sensor configuration is important to the derivation of particular forest structural attributes and significantly, there is potential for LiDAR technology to provide quantitative and spatially detailed estimates of key understorey attributes such as mean height and cover.

Eucalyptus

Forest ecology

Forest plants

Forest surveys

Understory plants

Forests of the western Olympic Peninsula : understory plant species diversity, forest policy, and landscape pattern /

Tyler, Marnie W.

January 2002

Thesis (Ph. D.)--University of Washington, 2002. / Vita. Includes bibliographical references (leaves 96-118).