Quantification of the relationship between productivity and work place conditions on construction sites

Kenny, T. G.

January 1981

No description available.

658

Construction site productivity

A DETAILED LITERATURE REVIEW OF RED ALDER MANAGEMENT IN MIXEDWOOD STANDS

Laing, Chris

02 December 2009

This literature review is a synthesis of recent publications and developments regarding the growing acceptance and potential of Alnus rubra (Bong) commonly called red alder. The project summarized some of the concerns and benefits of including red alder in coastal forest mixedwood management strategies. Some of the concerns include overtopping of conifers and competition for light. Some benefits include increases to site productivity, biodiversity, forest health and diversification of the coastal forest industry. It also examined past and current industry and government policies towards alder in mixedwood management and recent changes in some of these policies including the just released “Hardwood Management in the Coast Forest Region” policy paper. There is now recognition of the importance of alder management and there is a framework in place for patch mixedwood management in coastal BC. But before intimate mixedwood strategies are accepted and used operationally, further research and trials are required. There needs to be a better understanding of both the competetitive and beneficial effects of red alder in mixture with conifers for complex forests to in order to assist forest managers in making sustainable management decisions.

biodiversity

Alnus rubra (Bong)

mixedwood management

red alder

sustainable forest management

site productivity

Long term effects of wet site timber harvesting and site preparation on soil properties and loblolly pine (Pinus taeda L.) productivity in the lower Atlantic Coastal Plain

Neaves, Charles Mitchell III

22 May 2017

Short term studies have suggested that ground based timber harvesting on wet sites can alter soil properties and inhibit early survival and growth of seedlings. Persistence of such negative effects may translate to losses in forest productivity over a rotation. During the fall and winter of 1989, numerous salvage logging operations were conducted during high soil moisture conditions on wet pine flats in the lower coastal plain of South Carolina following Hurricane Hugo. A long-term experiment (split-plot within an unbalanced randomized complete block design) allowed assessment of long term effects of rutted and compacted primary skid trails and subsequent site preparation on soil properties and loblolly pine (Pinus taeda L.) productivity. The experiment had 12 blocks, four levels of site preparation as the whole plot factor (bedding, disking with bedding, disking, and no site preparation), and two levels of traffic as the subplot factor (primary skid trail, no obvious traffic). After 23 years, bedding and disking with bedding treatments effectively enhanced soil physical properties and stand productivity via promoting greater survival and stocking, but had little effect on the size of individual trees relative to disking and no site preparation treatments. Primary skid trails significantly reduced the size of individual trees, but had no appreciable long term effects on soil properties or stand productivity after 23 years. The study suggests that bedding is the most efficient practice to enhance soil properties, seedling survival, and stand productivity on wet sites. However, site preparation is not necessary for these soils and sites, if strictly intended to restore soil properties and stand productivity in primary skid trails. Reduction in individual tree sizes on primary skid trails emphasizes benefits in minimizing the spatial extent of disturbance. / Master of Science

site preparation

skid trails

Loblolly pine

site productivity

soil properties

wet site harvesting

forested wetlands

Productivité des forêts mélangées : effet de la diversité en essences dans un contexte climatique et édaphique variable / Productivity of mixed forests : effect of tree species diversity along climatic and edaphic gradients

Toïgo, Maude

11 March 2015

Les changements environnementaux à l’échelle globale peuvent se traduire par une modification des conditions abiotiques et de la diversité biologique. La fonction de production des écosystèmes forestiers a la particularité d'être à la fois soumise à, et régulatrice de ces changements environnementaux. Il apparaît alors primordial de comprendre la manière dont la diversité en essences et les facteurs abiotiques exercent le contrôle de cette fonction. Au cours de mes travaux j’ai étudié la variation de l'effet du mélange d’essences sur leur productivité dans un contexte climatique et édaphique changeant. Grâce à une double approche, basée sur des données locales et des données de l'Inventaire forestier national, je me suis concentrée sur cinq espèces forestières européennes majeures en peuplements purs et bispécifiques : Quercus petraea, Pinus sylvestris, Fagus sylvatica, Abies alba et Picea abies. En plaine je montre que l'effet du mélange d’essences varie peu avec les facteurs abiotiques. De plus cet effet est déterminé par la tolérance à l'ombrage de l'espèce accompagnatrice. En montagne l’effet du mélange d’essences sur leur productivité est plus fort et positif lorsque les facteurs abiotiques sont les plus limitants pour la croissance. Ces résultats illustrent l’intérêt d'intégrer les facteurs abiotiques et les caractéristiques fonctionnelles des espèces comme déterminants de l'effet de la diversité biologique sur les fonctions de l'écosystème. / Global environmental changes may lead to a modification of abiotic factors and biological diversity. The production function in forest ecosystems has the particularity to be both subjected to, and a regulator of, these environmental changes. Understanding how forest productivity is driven by species diversity and environmental factors is therefore a critical issue. This PhD thesis studies how tree species mixture affects their productivity along edaphic and climatic gradients. Based on an approach using both an original dataset and the national forest inventory dataset, I focused on five major species of European forests in pure and two-species forests: Quercus petraea, Pinus sylvestris, Fagus sylvatica, Abies alba and Picea abies. In lowlands, abiotic factors had little impacts on the outcome of tree species mixture on productivity. In addition, the effect of tree species mixture was determined by the shade tolerance of companion species. In highlands, the positive effects of tree species mixture were strongest when the abiotic factors were the most limiting for growth. These results highlight the importance of considering abiotic factors and the functional characteristics of species as drivers of the effect of biological diversity on ecosystem functions.

Forêt tempérée

Feuillu

Résineux

Inventaire forestier national

Productivité du site

Déficit hydrique

Dendrochronologie

Largeur de cerne

Densité du bois

Temperate forest

Broadleaf

Conifer

National forest inventory

Site productivity

Water deficit

Dendrochronology

Ring width

Wood density

634.9