Studies on Electrical Treeing in High Voltage Insulation Filled with Nano-Sized Particles

Alapati, Sridhar

January 2012

Polymers are widely used as insulating materials in high voltage power apparatus because of their excellent electrical insulating properties and good thermomechanical behavior. However, under high electrical stress, polymeric materials can get deteriorated which can eventually lead to the failure of the insulation and thereby the power apparatus. Electrical treeing is one such phenomena whereby dendritic paths progressively grow from a region of high electrical stress and branch into conducting channels in a solid dielectric. The propagation of electrical trees is of particular interest for the power industry as it is one of the major causes of failure of high voltage insulation especially in high voltage cables, cast resin transformers as well as rotating machines. To improve the life time of the electrical insulation systems there is a need to improve the electrical treeing resistance of the insulating material for high voltage application. With the development of nanotechnology, polymer nanocomposites containing nano sized particles have drawn much attention as these materials are found to exhibit unique combinations of physical, mechanical and thermal properties that are advantageous as compared to the traditional polymers or their composites. Literature reveals that significant progress has been made with respect to the mechanical, optical, electronic and photonic properties of these functional materials. Some efforts have also been directed towards the study of dielectric/electrical insulation properties of these new types of materials. Considering the above facts, the present research work focuses on utilizing these new opportunities which have been opened up by the advent of nanocomposites to develop tree resistant insulating materials for high voltage power applications. Electrical treeing is a common failure mechanism in most of the polymeric insulation systems and hence electrical treeing studies have been carried out on two types of polymers (viz. polyethylene used in high voltage cable and epoxy used in rotating machines and resin cast transformers) along with three different types of nano-fillers, viz. Al2O3, SiO2 and MgO and with different filler loadings (0.1, 1, 3, 5 wt%). Furthermore, considering the fact that electrical treeing is a discharge phenomenon, the partial discharge characteristics during electrical tree growth in polymer nanocomposites was studied. As morphological changes in the polymer influence the electrical tree growth, the influence of nano-particle induced morphological changes on the electrical treeing has also been studied. Above all, an attempt has also been made to characterize and analyze the interaction dynamics at the interface regions in the polymer nanocomposite and the influence of these interface regions on the tree growth phenomena in polymer nanocomposites. A laboratory based nanocomposite processing method has been successfully designed and adopted to prepare the samples for treeing studies. Treeing experimental results show that there is a significant improvement in tree initiation time as well as tree inception voltage with nano-filler loading in polymer nanocomposites. It is observed that even with the addition of a small amount (0.1 and 1 % by weight) of nano-particles to epoxy results in the improvement of electrical treeing resistance as compared to the unfilled epoxy. In fact, different tree growth patterns were observed for the unfilled epoxy and epoxy nanocomposites. Surprisingly, even though there is not much improvement in tree inception time, a saturation tendency in tree growth with time was observed at higher filler loadings. To understand the influence of nano-particles on electrical treeing, the interaction dynamics in the epoxy nanocomposites were studied and it was shown that the nature of the bonding at the interface play an important role on the electrical tree growth in epoxy nanocomposites. The results of electrical treeing experiments in polyethylene nanocomposites obtained in this study also reveal some interesting findings. An improved performance of polyethylene against electrical treeing with the inclusion of nano-fillers is observed. It is observed that there is a significant improvement in the tree inception voltage even with low nano-filler loadings in polyethylene. Other interesting results such as change in tree growth pattern from branch to bush as well as slower tree growth with increase in filler loading were also observed. Another peculiar observation is that tree inception voltage increased with increase in filler loading upto a certain filler loadings (3 % by weight) and then decreased in its value at high filler loading. The morphology of polyethylene nanocomposites was studied and a good correlation between morphological changes and treeing results was observed. Effect of cross-linking on electrical treeing has also been studied and a better performance of cross-linking of nano-filled polyethylene samples as compared to the polyethylene samples without cross-linking was observed. The partial discharge (PD) activity during electrical tree growth was monitored and different PD characteristics for unfilled and nano-filled polyethylene samples were observed. Interestingly, a decrease in PD magnitude as well as the number of PD pulses with electrical tree growth in polyethylene nanocomposites was observed. It is known that PD activity depends on the tree channel conductivity, charge trapping and gas pressure inside the tree channel. The ingress of nano-particles into the tree channel influences the above known phenomena and affects the PD activity during electrical tree growth. The observed decrease in PD magnitude with increase in filler loading leads to the slow propagation of electrical trees in polyethylene nanocomposites. In summary, it can be concluded that polymer nanocomposites performed better against electrical treeing as compared to the unfilled and the conventional micron sized filled polymer composites. Even with low filler loading an improved electrical treeing resistance was observed in polymer nanocomposites. An optimum filler loading and a suitable filler to inhibit electrical treeing in the polymers studied are proposed. This work also establishes the fact that the characteristics of the interface region and the induced morphological changes have a strong influence on the electrical treeing behaviors of nanocomposites. These encouraging results showed that epoxy and polyethylene nanocomposites can be used as tree resistant insulating materials for high voltage applications. These results also contribute to widen the scope of applications of polymer nanocomposites in electrical power sector as well as development of multifunctional insulation systems.

Electrical Treeing

Electrical Insulation

Polymeric Insulation

Polymer Nanocomposites

Epoxy Nanocomposites

Polyethylene Nanoomposites

LDPE Nanocomposites

Polymeric Insulation Systems

Epoxy Insulation

High Voltage Cable Insulation

Electrical Tree Growth

Electrical Engineering

High diversity mixed plantations in Brazil: Eucalyptus intercropped with native tree species / Plantações mistas de alta diversidade no Brasil: Eucalyptus intercalado com espécies arbóreas nativas

Nino Tavares Amazonas

30 January 2018

The high cost of restoring tropical forests is one of the greatest obstacle to achieving large-scale restoration. To overcome this barrier, we developed and implemented mixed plantations intercropping Eucalyptus with a high diversity of native tree species. The aim was to create favorable conditions for the regeneration of native species while simultaneously obtaining economic return from the exploitation of Eucalyptus as a commercial pioneer species. The use of Eucalyptus in this system is temporary and it shall be replaced by additional native species after it is harvested. In this research, we covered the main aspects and approaches of the effects of competition on tree growth using data from our restoration experiments. The objective of this research was to test the ecological viability of plantations that temporarily mix Eucalyptus spp. and a high diversity of native tree species during the initial phases of forest restoration as a strategy to offset implementation and maintenance costs. This alternative is investigated with a focus on the consequences of ecological interactions on tree survival and growth in three experiments implemented in the Atlantic Forest of Northeastern and Southeastern Brazil. We compared stands of native trees intercropped with Eucalyptus, traditional restoration plantations, and Eucalyptus monocultures. The thesis is structured in three main parts in which we focus in how the mixtures function compared to restoration plantations and Eucalyptus monocultures. We used forest inventories to understand the effects of competition and assessed ecophysiological parameters to provide insights about the mechanisms that affect tree growth when trees compete for water, light and nutrients. In the first part of the study, we showed that mixed plantations effectively combined high wood yield and tree diversity; that Eucalyptus grew larger in mixtures with native species than in monocultures; that native tree species grew less in mixtures with Eucalyptus; and that the mixing effect was stronger for fast- and intermediate-growing native species. In the second part, we found that mixtures consumed less water than monocultures; that Eucalyptus reduced the hydraulic performance of a fast-growing native species; and that tree growth was influenced by changes in the ecophysiology of water use. In the last part, we showed that a high diversity of nitrogen-fixing native trees facilitated Eucalyptus growth; that Eucalyptus had ~30% higher wood N concentration in mixtures; that native trees growth was not limited by nutrient competition with Eucalyptus; that Eucalyptus may benefit from increased light availability in mixed plantations; and that native species plots intercepted more sunlight than mixtures or Eucalyptus stands. This research has a strong interface between restoration science and practice, and contributed to the development of new ways to restore the tropical forests by allying restoration and production under the ecological and economic perspectives. Our findings indicate how to advance into the future, starting from the current state of art towards forest restoration systems that minimize competition and maximize growth, as an emergent promising alternative to finance tropical forest restoration and overcome the economic barrier that still holds large-scale restoration. This research may be used as a basis to continue adapting silviculture for different regions and forest ecosystems. Looking further into the future, these mixtures may also represent the starting point of a new silvicultural model that brings together production and conservation. The information available may be used by scientists, decision-makers, planners and restorationists to advance in the science and practice of restoration and silviculture in the tropics. / O alto custo de se restaurar as florestas tropicais são um dos maiores obstáculos para se atingir a restauração em larga escala. Para superar essa barreira, nós desenvolvemos e implantamos plantações mistas que intercalam Eucalyptus e uma alta diversidade de espécies arbóreas nativas. O objetivo é criar condições favoráveis para a regeneração das espécies nativas e, ao mesmo tempo, obter retorno econômico da exploração de eucalipto como uma espécie pioneira comercial. O uso do eucalipto nesse sistema é temporário e ele deve ser substituído por espécies nativa adicionais após ser colhido. Nessa pesquisa, nós cobrimos os principais aspectos e abordagens relacionados aos efeitos da competição sobre o crescimento arbóreo utilizando dados dos nossos experimentos. O objetivo dessa pesquisa foi testar a viabilidade ecológica de plantios que consorciam temporariamente eucalipto e uma alta diversidade de espécies arbóreas nativas durante as fases iniciais da restauração ecológica como uma estratégia para compensar parte dos custos de implantação e manutenção. Essa alternativa é investigada com foco nas consequências das interações ecológicas sobre a sobrevivência e o crescimento das árvores em três experimentos implantados na Mata Atlântica do nordeste e sudeste do Brasil. Nós implantamos e comparamos talhões de espécies nativas intercaladas com eucalipto, plantios de restauração tradicionais e monocultivos de eucalipto. A tese é estruturada em três partes principais com foco em como os plantios mistos funcionam em comparação a plantios de restauração e monocultivos de eucalipto. Nós utilizamos inventários florestais para entender os efeitos da competição e estimamos parâmetros ecofisiológicos para investigar os mecanismos que afetam o crescimento arbóreo quando as árvores competem por água, luz e nutrientes. Na primeira parte do estudo, nó mostramos que os plantios mistos combinaram efetivamente alta produção de madeira com diversidade arbórea; que eucalipto cresceu mais em plantios mistos do que em monocultivos; que espécies nativas cresceram menos em consórcio com eucalipto; e que o efeito do consórcio foi maior para espécies de crescimento rápido e intermediário. Na segunda parte, mostramos que plantios mistos consumiram menos água do que monocultivos; que Eucalyptus reduziu a performance hidráulica de uma espécie nativa de rápido crescimento; e que o crescimento das árvores foi influenciado por mudanças na ecofisiologia do uso da água. Na última parte, nós mostramos que uma alta diversidade de espécies arbóreas fixadoras de nitrogênio facilitaram o crescimento de Eucalyptus; que Eucalyptus teve concentração de N ~30% mais alta na madeira, em plantios mistos; que o crescimento de árvores nativas não foi limitado pela competição por nutrientes com eucalipto; que eucalipto pode se beneficiar de maior disponibilidade de luz em plantios mistos; e que parcelas de espécies nativas interceptaram mais luz do que plantios mistos ou monocultivos de eucalipto. Essa pesquisa tem uma forte interface entre a ciência e a prática da restauração, e contribuiu para o desenvolvimento de novas maneiras de se restaurar as florestas tropicais por meio da aliança entre restauração e produção sob as perspectivas ecológica e econômica. Nossas descobertas indicam como avançar no futuro, a partir do estado da arte atual, em direção a sistemas de restauração florestal que minimizem a competição e maximizem o crescimento, como uma alternativa emergente e promissora para compensar os custos da restauração e superar a barreira econômica que ainda impede a restauração em larga escala. Essa pesquisa pode ser utilizada como uma base para se continuar adaptando a silvicultura a diferentes regiões e ecossistemas florestais. Olhando para o futuro mais distante, esses plantios mistos podem também representar um ponto inicial de um novo modelo de silvicultura que alia produção e conservação. A informação disponibilidade deve ser utilizada por cientistas, tomadores de decisão, planejadores e restauradores para avançar com a ciência e a prática da restauração e da silvicultura nos trópicos.

Crescimento arbóreo

Ecofisiologia florestal

Plantações mistas de alta diversidade

Restauração de florestas tropicais

Forest ecophysiology

High diversity mixed plantation

Tree growth

Tropical forest restoration

Dynamique intra-annuelle de la formation du bois de trois espèces de conifères (sapin pectiné, épicéa commun et pin sylvestre) dans les Vosges : De la description des patrons saisonniers de la croissance à l'étude de l'influence de l'environnement sur la cinétique du développement cellulaire et les caractéristiques anatomiques du xylène / Intra-annual wood formation dynamics of three conifer species (silver fir, Norway spruce, and Scots pine) in northeast France : From the description of the growth seasonal patterns to the study of the environmental influence on the kinetics of cell development and the anatomical features of the xylem

Cuny, Henri

28 May 2013

La formation du bois (xylogénèse) produit une large partie de la biomasse de la planète et une ressource essentielle pour l'Homme. Les cellules du bois sont produites par division dans le cambium puis s'élargissent, forment une paroi épaisse lignifiée et meurent. Pendant l'année, ces processus sont définis par des dates, durées et vitesses qui caractérisent la dynamique intra-annuelle de la xylogénèse. Cette dynamique reste peu explorée alors que c'est un aspect clé, car c'est elle qui détermine la quantité et la qualité du bois produit et c'est sur elle que les facteurs de régulation agissent. Ce travail vise à améliorer nos connaissances sur la dynamique intra-annuelle de la xylogénèse. Pendant trois ans (2007-2009), la xylogénèse a été suivie pour 45 arbres de trois espèces de conifères (sapin pectiné, épicéa commun et pin sylvestre) dans les Vosges. Pour ça, des petits échantillons de bois ont été prélevés chaque semaine sur le tronc des arbres sélectionnés. Les échantillons ont été préparés au laboratoire, puis des sections anatomiques ont été réalisées pour observer la xylogénèse au microscope. Cette thèse a permis d'améliorer notre connaissance du fonctionnement de la xylogénèse, un système biologique d'une fascinante complexité. Nous avons caractérisé - grâce à l'innovation d'une méthode statistique performante - les aspects méconnus de la dynamique de différenciation des cellules du bois. Nous avons alors pu dévoiler les mécanismes par lesquels la dynamique de la xylogénèse donne forme à la structure du cerne, établir la dynamique intra-annuelle de l'accumulation du carbone dans le bois et évaluer les mécanismes de l'influence du climat sur la xylogénèse / Wood formation (xylogenesis) produces a large part of the biomass of this planet and provides a crucial resource to Mankind. Wood cells are produced by division in the cambium, after what they enlarge, build a lignified thick wall and die. During a year, these processes take place at certain dates, last for certain durations and go at certain rates. These dates, durations and rates characterize the intra-annual dynamics of xylogenesis. This dynamics remains poorly explored whereas it is a key aspect as it determines the quantity and quality of the produced wood and conveys the influence of intrinsic (gene, hormone) and extrinsic (environment) regulatory factors. This work aims to improve our knowledge on the intra-annual dynamics of xylogenesis. During three years (2007-2009), xylogenesis was monitored for 45 trees of three conifer species (silver fir, Norway spruce, and Scots pine) in northeast France. For that, small wood samples were collected weekly on tree stem. Samples were prepared at the laboratory, and anatomical sections were cut to observe xylogenesis under a light microscope. This thesis has improved our knowledge on the functioning of xylogenesis, a biological system of a fascinating complexity. We characterized - thanks to the development of an efficient statistical method - the little known aspects of wood cell differentiation dynamics. Based on this characterization, we eluded the mechanisms by which xylogenesis dynamics shapes tree ring structure, we established the intra-annual dynamics of carbon accumulation in wood and we evaluated the mechanisms of the climate influence on xylogenesis

Activité cambiale

Cerne de croissance

Climat

Conifères

Croissance de l'arbre

Forêt tempérée

Formation du bois

Xylogénèse

Cambial activity

Tree ring

Climate

Conifers

Tree growth

Temperate forests

Wood formation

Xylogenesis

582.16

Growth and Establishment of Newly Planted Street Trees

Sherman, Alexander R

01 January 2013

Developing quantified establishment period estimates for newly planted trees will help set realistic goals for plant performance in the urban landscape. Nine years of tree planting records obtained from the city of Boston, MA and the town of Brookline, MA were used to derive samples of trunk caliper for hedge maple (Acer campestre), London planetree (Platanus x acerifolia), and red oak (Quercus rubra). Several site characteristics were measured to identify effects on newly planted tree growth. Breakpoint estimates of the piecewise regression models fell at 4 years and 6 years for London planetree and hedge maple respectively, showing establishment periods for urban trees are longer than the conventional 3 years. Pit area has a significant effect on caliper growth for London planetree and red oak, with larger growing spaces yielding larger trees. Observed soil bulk densities did not have a significant effect on caliper measurement for any of the species tested. Mean soil bulk density was 1.4 g/cm3, 1.45 g/cm3, and 1.49 g/cm3 for hedge maple, London planetree, and red oak respectively. Soil texture was significant for hedge maple only, with percent clay showing significant positive effects and percent sand as marginally significant. Pit type showed a significant effect on caliper measurement of London planetree with grass strips producing the largest caliper trees followed by open pits. Planting locations with tree grates produced the smallest caliper trees. Presence of perforated air vents produced significantly larger caliper trees than sites with an air vent present for red oak.

street trees

urban trees

tree establishment

newly planted tree growth

Agronomy and Crop Sciences

Forest Biology

Forest Management

Horticulture

Other Forestry and Forest Sciences

An Ecological and Distributional Analysis of Great Basin Bristlecone Pine (Pinus longaeva)

Taylor, Gregory Watson

01 August 2018

Understanding the impacts of climate change is critical for improving the conservation and management of ecosystems worldwide. Ecosystems vary along a precipitation and temperature gradient, ranging from tropical jungles to arid deserts. The Great Basin is a semi-arid eco-region that is found within the western United States. Plant communities within the Great Basin range from sagebrush valleys to sub-alpine conifer forests found at high elevation areas. It is predicted that the Great Basin will experience prolonged periods of drought, more intense fires, and greater variability in average annual and monthly precipitation, all in response to changes in climate patterns. At the lower elevations, sagebrush communities are expected to experience less suitable habitat conditions, however, less is understood about vegetation response at upper elevations. Understanding forest composition and structure at these upper elevations within the Great Basin will help us better understand potential impacts from climate change. In chapter 1, we characterized Pinus longaeva (Great Basin bristlecone pine D.K. Bailey) forest structure and composition. We mapped this tree species distribution and characterized forest structure and composition using a sampling protocol that included both biophysical variables and individual tree characteristics. We collected data from 69 mixed and homogenous P. longaeva stands found within the Great Basin and Colorado Plateau. Results suggest that P. longaeva forest structure and composition exhibit high structural variability in tree characteristic measurements like density, basal area, growth rate, age, and in biophysical variables such as substrate type, slope, aspect, elevation, average monthly temperature and precipitation, latitude, and longitude. This study also found that variability in forest composition and structure in P. longaeva forests allows for greater flexibility in the breadth of life-history strategies and probable resiliency to climate change. In chapter 2 we used remote sensing images with high spatial resolution to identify 685 unique P. longaeva stands on 42 mountain ranges. Pinus longaeva was found on the White Mountains on the western edge of the Great Basin to the Colorado Plateau's Henry Mountain and West Tavaputs Plateau in the East, and from the Spring Mountains in the South to the Ruby and Spruce Mountains in the North. Stands covered 113,886 ha across the geographic distribution. A comparison between our maps and those produced by David Charlet found a total of 36% overlap of P. longaeva. We mapped 58 unique stands that the control dataset lacked and 11 stands that we did not include. We believe that this is the most comprehensive P. longaeva distribution map created to date.

Great Basin bristlecone pine

forest ecology

community structure

indicator species

tree growth rate

life-history strategy

Shannon's Diversity Index

Life Sciences

Plant Sciences

FOREST PEST MANAGEMENT AT VIRGINIA TECH AND ENVIRONMENTAL DECISION MAKING AT THE TENNESSEE VALLEY AUTHORITY: AN INTERNSHIP

Matthew, Beversdorf Arnold

24 April 2004

No description available.

Hemlock woolly adelgid

tree growth response

Adelgis tsugae

Tsuga canadensis

Tennessee Valley Authority

water resources

water quality

urban growth

watershed project management

Investigating the response of subtropical forests to environmental variation through the study of the Abies kawakamii treelines in Taiwan

Greenwood, Sarah

January 2014

Altitudinal treeline advance represents a sensitive and well-studied example of species response to climate warming. Although a great deal of work has been conducted globally, few studies have considered subtropical alpine treelines and little is known about their structure and function. This research aims to investigate the response of high altitude forests in Taiwan to climate variation by characterising treeline advance in the area, exploring the mechanisms driving the advance, and considering the consequences of advance for the wider community. The thesis consists of a general introduction to the topic followed by a series of papers, exploring: (1) Possible consequences of treeline shifts for biodiversity and ecosystem function. (2) The advance of the Abies kawakamii treeline through aerial photograph analysis. (3) The changes in growth rate of Abies kawakamii at treeline and the influence of altitude and temperature on growth. (4) Regeneration patterns at treeline and the importance of microclimate and topographic sheltering. (5) Consequences of the range shift for the wider forest community. The work is then concluded with a general discussion and synthesis. The main aims of this work are therefore to characterise and understand the pattern and pace of treeline advance and forest structural change throughout the Central Mountain Range of Taiwan. Treeline advance is characterised through the study of repeat aerial photographs and the mechanisms behind the observed shift are explored through the study of two key responses associated with forest advance: tree growth at treeline and seedling establishment beyond treeline. The consequences of treeline advance for the wider subalpine community are investigated through the study of epiphytic lichen communities at treeline sites. This investigation of an understudied region will allow for improved understanding of treeline response at a global scale.

577.3

The Effect of Porous Concrete Paving on Underlying Soil Conditions and Growth of Platanus orientalis

Morgenroth, Justin

January 2010

Urbanisation is characterised by mass migration of people to urban areas and conversion of land from rural to urban land uses. Changes in population dynamics have led to half the world’s population living in urban areas; in developed countries, urban dwellers account for three-quarters of the total population. Though populations have shifted from rural to urban areas, people continue to rely on their environment, and trees in particular, for tangible and intangible benefits alike. A great deal of factual and anecdotal knowledge supports the role of trees for ecological, social, and economic well-being. In spite of this, during urbanisation, previously vegetated land is converted to housing, roads, or utility corridors, all of which are necessary to support growing populations. This thesis investigates tree growth in these modified urban landscapes, in particular, the effects of pavements on urban trees. Pavements are truly pervasive, covering more than half of all land in highly developed urban areas. Their durability and strength are of great importance to transportation, but large-scale soil sealing is not without consequence. Pavements affect the hydrologic cycle, soil and air temperature, and nutrient cycling. Because of their effect on the surrounding environment, pavements inherently affect remnant or planted trees. They are believed to negatively affect tree growth and survival, thereby compromising the ecological, social, and economic benefits otherwise derived from the urban forest. In recent times, porous pavements have been increasingly installed in favour of impervious pavements. Porous pavements are perceived to be an environmentally-sound alternative to standard impervious pavements. This thesis begins by reviewing the literature concerning porous pavement’s effect on underlying soil and urban vegetation, thus illustrating the scarcity of empirical data describing the effect of porous pavement on tree growth. A greater understanding of porous pavement’s impact on the surrounding environment is needed, if its installation is to continue. With this aim in mind, this thesis describes an experiment in Christchurch, New Zealand, which monitored the impacts of porous and impervious pavement on underlying soil conditions, and subsequent tree growth. The experiment comprised 50 Platanus orientalis trees planted in an augmented factorial design, which consisted of controls and four treatments. Trees were split evenly amongst plots, such that ten replicates existed per treatment. The pavement treatments measured 2.3m by 2.3m, and were based on the combination of pavement type (2 levels: porous, impervious) and pavement profile design (2 levels: +/- subbase compaction and gravel base). The resulting four treatments were impervious concrete pavement (IP), impervious concrete pavement with compacted subbase and gravel base (IP+), porous concrete pavement (PP), and porous concrete pavement with compacted subbase and gravel base (PP+). From December 2007 to March 2009, data were collected to determine the effect of these treatments on soil moisture, aeration, pH, and nutrient concentration. Final tree height, stem diameter, shoot and root biomass, and root distribution were also measured at the conclusion of the experiment. Results of this experiment indicated that the effects of pavement porosity on soil moisture and aeration were dynamic, varying with season and soil depth. Increased soil moisture beneath porous pavements resulted from rapid infiltration following precipitation. This decreased the duration of plant stress resulting from drought. Relative to bare soil, paved plots had consistently greater soil moisture, likely because pavements reduced evaporation. The inclusion of a gravel base in the profile design limited capillary upflow, which resulted in lower soil moisture under pavements designed with a gravel base. Soil aeration was significantly lower beneath pavements relative to unpaved plots. This is likely related to greater soil moisture beneath pavements. Finally, soil pH increased beneath pavements, in particular beneath porous pavements. Though all growth parameters increased for trees surrounded by porous, rather than impervious pavement, this occurred only in the absence of a compacted subgrade and gravel base. Evidently, the impact of the compacted subgrade superseded the impact of pavement porosity. Furthermore, root growth was relatively shallow beneath pavements, likely due to favourable soil moisture directly beneath pavements. This research highlights (i) the dramatic effect of pavements on underlying soil conditions; (ii) that pavements do not inherently limit tree growth; (iii) that porous pavements can conditionally improve tree growth; and (iv) that soil compaction limits potential benefits resulting from porous pavements.

pavement

porous

pervious

impervious

permeable

gap-graded

open-graded

no-fines

tree growth

urban

forestry

root growth

root distribution

root morphology

soil moisture

soil water

soil aeration

soil oxygen

Les accrus de frêne (Fraxinus excelsior L.) à l'interface environnement/sylviculture dans les Pyrénées Centrales : distribution spatiale et croissance / Spatial distribution and growth of Fraxinus excelsior (L.) in Pyrenean agricultural landscapes : role of environmental factors and management practices

Mdawar, Ola

13 November 2009

Le changement des pratiques agricoles et surtout pastorales dans les Pyrénées Centrales a entraîné une colonisation des terres par le frêne (Fraxinus excelsior L.) en constituant des peuplements denses et fréquents dans le paysage pyrénéen. Ce travail est centré sur l'étude de la répartition actuelle et future de ces peuplements qu'on appelle "des accrus" et sur leur potentialité de croissance en relation avec les facteurs qui peuvent être limitants dans la perspective d'une valorisation économique de ces accrus. L'étude de la croissance a été réalisée à trois niveaux : la croissance en hauteur en fonction de la fertilité, et la croissance en diamètre en fonction du climat et de la compétition. Pour ce dernier facteur, la croissance a été étudiée sur des peuplements en place (sans intervention) et suites à deux modalités d'éclaircie. La détection des accrus de frêne au stade perchis avec les outils de télédétection n'est pas réalisable et nécessiterait d'importants investissements et adaptations pour devenir utilisables. La présence des accrus de frêne est surtout modulée par la topographie et l'utilisation du sol. En ce qui concerne la croissance en diamètre de ces accrus, elle est modulée par la vigueur des arbres, la compétition et le climat. Ce sont surtout les températures maximales d'avril et les températures minimales de septembre ou d'août qui influencent la croissance en surface de cerne. Le frêne réagit dès la première année à l'éclaircie, d'autant plus fortement et durablement que le peuplement est plus jeune. L'effet de la nutrition minérale sur la classification des accrus étudiés, selon leur croissance en hauteur, n'est pas évident. L'ensemble des résultats obtenus dans ce travail constitue un outil pour aider à gérer les accrus de frêne dans la zone étudiée surtout dans un objectif économique. / The changes of pastoral management practices in the Central Pyrenees are at the origin of the colonization process of grasslands by the ash (Fraxinus excelsior L.). This colonization process leads to the establishment of very dense and frequent patches of ashes in the Pyrenean landscape. The research is focused on the study of the current and future distribution of these forest patches resulting of the extension of ash trees by natural seeding called "the accrues" and on their potentiality of growth in relation to the nutritional factors which can be limiting from the point of view of an economic valorization of these new forest patches. The study of the tree growth was carried out on different levels: growth in height according to the fertility, and growth in diameter according to the climate and the competition. For this last factor, the growth was studied on in situ tree settlements without intervention and with two levels of thinning. The recognition of ash patches patterns within the mountain landscape was not possible using the traditional tools of remote sensing (SPOT) and should have require new technologies such as LIDAR or multispectral aero data which were out of reach during the PhD work. Exploratory field work has shown that at the landscape level, the presence of ash patches is a function of the topography and the land use history. With regard to the diameter growth of these increased, it is modulated by the strength of the trees, the level of competition and the climate. The maximum temperatures of April and the minimal temperatures of September or August influence the growth on the surface of tree ring. The ash reacts to the first year to thinning, especially for recent settlements and young trees. The effect of the mineral nutrition on the tree growth in height is not significant. The results on spatial pattern dynamics and the references on ash growth in a wide range of soil conditions obtained during this work constitutes a tool to help to manage ash patches within the studied area mainly with an economic point of view.

Fraxinus excelsior

Accrus

Croissance

Répartition

Facteur limitant

Eclaircie sylvicole

Cartographie

Climat

Nutrition minérale

Compétition

Pyrénées Centrales

Fraxinus excelsior

Spontaneous patches

Tree growth

Spatial distribution

Limiting factors

Tree thinning

Climate

Nutrition

Competition

Central Pyrenees

Versuchsflächenanalyse, Modellparametrisierung und waldbauliche Konsequenzen für die Behandlung von Buchen-Lärchen-Mischbeständen im Südniedersächsischen Bergland / Growth dynamics of mixed stands of Beech and European Larch (Larix decidua, Mill.).

Guericke, Martin

16 March 2001

No description available.

26 Natur, Naturwissenschaften allgemein

YSE 100

YV 000

Forest Sciences and Forest Ecology

Beech

European Larch

mixed stands

growth dynamics

silviculture guidelines

Buche

Europäische Lärche

Mischbestand

Wuchsdynamik

waldbauliche Behandlungsempfehlungen

48.99