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11	Dendrocronologia de Hovenia dulcis, exótica e invasora nas florestas subtropicais brasileiras. Vieira, Marcus Lanner 28 February 2011 (has links) Submitted by William Justo Figueiro (williamjf) on 2015-08-27T19:56:06Z No. of bitstreams: 1 30e.pdf: 524095 bytes, checksum: 83725900326890551c03ab7cc7a41525 (MD5) / Made available in DSpace on 2015-08-27T19:56:06Z (GMT). No. of bitstreams: 1 30e.pdf: 524095 bytes, checksum: 83725900326890551c03ab7cc7a41525 (MD5) Previous issue date: 2011 / FUNDEPE - Fundação Universitária para Desenvolvimento do Ensino e da Pesquisa / Petrobras - Petróleo Brasileiro S. A. / Hovenia dulcis Thunberg (Rhamnaceae) é uma espécie arbórea de origem asiática, comumente encontrada como invasora em formações florestais do sul do Brasil, onde compete com espécies arbóreas nativas em áreas de sucessão inicial e em clareiras no interior de florestas. Esta espécie, conhecida popularmente como uva-do-japão, perde completamente as folhas no período invernal, indicando um padrão fenológico estacional que estaria associado à formação de anéis de crescimento no lenho. Essas estruturas anatômicas marcam ciclos sazonais de atividade do câmbio vascular, fornecendo registros anuais da idade e do crescimento das plantas. Dessa forma, a existência de anéis de crescimento nesta espécie permitiria desenvolver estudos dendroecológicos, relevantes ao entendimento e manejo do seu processo de invasão. Neste estudo investigamos padrões de crescimento de H. dulcis através de séries temporais de largura de anéis de crescimento e suas relações com o clima regional. O estudo foi realizado em florestas ciliares de três arroios da bacia hidrográfica do rio dos Sinos, RS (29˚40”30’S; 50˚70”20’W), em cotas de 64 a 274m de altitude. Foram coletadas amostras de secções transversais do tronco de 49 indivíduos, com auxílio de um trado de incremento. As amostras foram preparadas datadas e medidas, gerando séries temporais de crescimento que foram submetidas a análises de correlação, regressão e ordenação para avaliar padrões de crescimento entre árvores e relações com séries históricas de temperatura atmosférica e precipitação. Os resultados demonstram que o crescimento de H. dulcis é sensível ao clima e apontam os principais fatores de influencias no crescimento. Destacamos a convergência no crescimento das árvores independente do seu local dentro da área de estudo. O sincronismo de crescimento expresso na cronologia apresentou sinais climáticos regionais atuando sobre a população. A série de crescimento regional média foi positivamente relacionada com a precipitação durante a primavera e o verão atual e temperatura de outono anterior. Isso significa que o crescimento de H. dulcis é sensível à baixa disponibilidade de água durante o período vegetativo e temperatura fria no outono restringe a duração de atividade de crescimento, reduzindo o crescimento na próxima temporada. Através do perfil de crescimento das árvores, reconhecemos árvores de crescimento rápido como sendo as que apresentam melhor o sinal comum de crescimento da população e mais sensíveis ao sinal regional. Identificamos também os indivíduos velhos, pequenos e de crescimento lento como representantes ruins do crescimento comum, pois estes são influenciados principalmente por fatores de micro sítio. Assim a datação precisa da idade dos indivíduos merece grande destaque, pois sugerem que medidas de diâmetro não são bons descritores de idade, não sendo esta medida adequada para estudos ecológicos que necessitem de estimativa de idade. / Hovenia dulcis Thunberg (Rhamnaceae) is a tree species from Asia invading forest formations in south Brazil, where it competes with native tree species in early succession areas and forest canopy gaps. The blueberry-japan shades its leaves in winter, indicating a seasonal phenological behavior that would be related to the formation of wood growth rings. This anatomical xylem structures mark seasonal cambium activity cycles, thus informing about tree age and annual growth. The formation of annual rings in H. dulcis would allow the development of dendroecological studies, relevant to understand and manage its invasion process. This study investigates long-term growth patterns of H. dulcis and relationships to regional climate through tree-ring analyses. The study was carried our in three riparian forests within the Dos Sinos river catchment (29˚40”30’S; 50˚70”20’W), between 64 and 274 m asl. Fourty nine trees were cored with an increment borer to obtain transversal trunk wood samples for tree ring analysis. The wood cores were surfaced, measured, cross-dated and detrended to obtain a annual growth index time series per tree. Regional temperature and precipitation series were obtained from modeled grid data-set. Growth patterns among trees and relationships with climate were explored through ordination, correlation and regression analyses. Trees from different riparian forests showed a similar growth pattern, indicative of a regional growth signal. The regional signal strength variation among trees did not varied in function of age but was directly related to tree size controlling age, indicating fast growing trees were more sensitive to such regional signal, probably because slow growing trees would be more influenced to site factors. The regional mean growth series was positively related to precipitation during current spring and summer and to temperature of previous autumn. It means H. dulcis growth is sensitive to low water availability during the vegetation period and cold temperature in autumn restricts the duration of growth activity, reducing growth in the next season. Dendrocronologia Dendroecologia Clima subtropical Dendrochronology Dendroecology Subtropical climate
12	Climate and the autumnal moth (Epirrita autumnata) at Mountain Birch (Betula pubecens ssp. czerepanovii) Treelines in northern Sweden. Young, Amanda B. 16 January 2010 (has links) The main objectives of this investigation were to determine the impact of climate on mountain birch (Betula pubecens ssp. czerepanovii (Orlova)) growth and to develop a regional chronology of autumnal moth outbreaks. To accomplish the objective, cores of mountain birch were taken from 21 sites in Norrbotten, Sweden. Tree-ring chronologies were developed for each site. Climatic influences were determined by correlating ring widths to climatic variables (average monthly temperature, average monthly precipitation and NAO). Outbreaks were recovered from the ring width indices using the non-host method with Scots pine (Pinus sylvestris (L.)) as the non-host. This method removes the climatic influence on growth to enhance other factors. Patterns of synchrony and regional outbreaks were detected using regression and cluster analysis techniques. The primary climatic influences on the tree ring growth of mountain birch are June and July temperatures; precipitation during October is of secondary importance. Climate explained 46% of yearly tree ring width variation. Outbreaks of the autumnal moth occur at varying time intervals depending on the scale of study. Intervals between outbreaks on the tree level are twice as long as at the plot level. On the regional scale plots within the same valley had more similar outbreak intervals and magnitudes of outbreaks. Elevation is a driver in determining the length of outbreaks and length between outbreaks. The percent monocormicity of a plot is also a determining factor of the length between outbreaks. This study is the first regional scale study on climate and outbreaks of the autumnal moth on mountain birch. The results complement research being conducted on autumnal moth larval densities and will help in modeling and assessing the effects of outbreaks with increasing climatic change. outbreaks, climate, dendroecology autumnal moth (Epirrita autumnata) northern Sweden
13	Fire Regimes and Successional Dynamics of Pine and Oak Forests in the Central Appalachian Mountains Aldrich, Serena Rose 2011 May 1900 (has links) The role of fire in determining the structure and composition of many forested ecosystems is well documented (e.g. North American boreal forests; piñon-juniper woodlands of the western US). Fire is also believed to be important in temperate forests of eastern North America, but the processes acting here are less clear, particularly in xerophytic forests dominated by yellow pine (Pinus, subgenus Diploxylon Koehne) and oak (Quercus L.). In this study, I use dendroecological techniques to investigate fire history and vegetation dynamics of mixed pine-oak forests in the central Appalachian Mountains of Virginia. The study addresses three objectives: (1) develop a lengthy fire chronology to document fire history beginning in the late presettlement era and extending throughout the period of European settlement, industrialization and modern fire exclusion; (2) explore fire-climate relationships; and (3) investigate vegetation dynamics in relation to fire occurrence. The study was conducted on three study sites within the George Washington National Forest. I used fire-scarred cross-sections from yellow pine trees to document fire history. Fire-climate relationships were investigated for each study site individually and all sites combined using superposed epoch analysis (SEA). Fire-history information was coupled with dendroecological data on age structure to explore stand development in relation to fire occurrence. Results of fire history analysis reveal a long history of frequent fire with little temporal variation despite changes in land use history. Mean fire intervals (MFI) ranged from 3.7–17.4 years. The most important change in the fire regime was the initiation of fire suppression in the early twentieth century. Results of SEA show that periodic droughts may be important drivers of fire activity. Drought the year of fire was important at two of the three study sites and when all sites were combined. Results of age structure indicate that vegetation development was clearly influenced by fire. Frequent burning maintained populations of yellow pine throughout the period of study until fire suppression allowed fire-sensitive hardwood trees and shrubs to establish. It is clear from this study that continued fire suppression will likely result in fire-tolerant pines and oaks being replaced by more mesophytic trees and shrubs. Appalachian Mountains Dendroecology Disturbance Fire history Pinus pungens: Table Mountain pine Tree ring
14	COMPARING STAND COMPOSITION AND FLORISTIC QUALITY OF TWO ADJACENT UPLAND OAK-HICKORY WOODLANDS IN SOUTHERN ILLINOIS: OLD-GROWTH AND SECOND-GROWTH DYNAMICS Kleiman, Leah Rose 01 August 2023 (has links) (PDF) Illinois has no official parameters for old-growth oak-hickory (Quercus-Carya) forests despite oak-hickory being the historically dominant ecosystem in the forested parts of Illinois (Fralish, 1997; Thompson & Dessecker, 1997). The purpose of this study was to better understand the characteristics of old-growth oak-hickory stands, as well as make management recommendations for preserving the integrity of old-growth forests and shifting second-growth stands to old-growth status. Stand structure analysis was conducted in June and July of 2022 on an old-growth oak-hickory stand (Otey-Grisley Nature Preserve) and nearby second-growth oak-hickory stand (Grisley Woods Land and Water Reserve) near Pittsburg, Illinois using dendrochronology, various stand composition analyses, and floristic assessments to compare the two forests across multiple nodes of inquiry from their canopies to their ground layers. White oak (Quercus alba L.) was of higher importance in the more open old-growth canopy than the closed second-growth canopy which had more shagbark hickory (Carya ovata L.). The old-growth stand had higher floristic quality (mean Coefficient of Conservatism and adjusted Floristic Quality Index) and lower frequency of invasive species than the second-growth stand. The dominant white oak appear to have suppressed the hickories (Carya) for over a century on both sites. However, in the sapling and seedling layer, it appears the oaks and hickories are failing to recruit into the canopy on either site. The average age of the old-growth canopy is 67 years greater than that of the second-growth canopy, the majority of which seeded in after a heavy cut in the early 1940s. The second-growth site rapidly gained early successional species after the logging. The second-growth site could come to resemble the open oak dominated character of the old-growth site. However, this will require management with fire, thinning, and invasive species treatments. The old-growth, where sassafras (Sassafras albidum L.) is crowding the understory, will also require invasive species management, prescribed fire, and thinning if it is to remain the open oak-hickory woodland it is today. Dendroecology Floristic Quality Land-use History Mesophication Old-growth Second-growth
15	Dendroklimatologische und dendroökologische Untersuchungen des Zuwachsverhaltens von Buche und Fichte in naturnahen Mischwäldern / Dendroclimatological and dendroecological analysis of growth reactions of beech and spruce in near-natural mixed forests Grundmann, Britt 27 May 2009 (has links) (PDF) Vor dem Hintergrund sich verändernder Umweltbedingungen durch den allgegenwärtigen Klimawandel wächst das Interesse an Vorhersagen zur zukünftigen Waldentwicklung. Der prognostizierten Häufung von Witterungsextremen wird ein wesentlicher Einfluss auf das Wachstum und die Vitalität der Waldbaumarten zugeschrieben. Wichtige Erkenntnisse bringen hier Untersuchungen zu den physiologischen Wachstumsgrenzen der Gehölze, die sich besonders deutlich an deren heutigen Verbreitungsgrenzen nachweisen lassen. An diesen offenbart sich das Potential einer Baumart, die Migration unter zukünftigen Bedingungen fortsetzen zu können. Großes Interesse herrscht an ökonomisch wichtigen Baumarten wie der Gemeinen Fichte (Picea abies [L.] Karst.) und der Rot-Buche (Fagus sylvatica L.). Deren Wuchsverhalten unter natürlichen Bedingungen, in natürlich erwachsenen Mischwäldern wurde in der vorliegenden Arbeit an den derzeitigen Arealsgrenzen beider Arten in Südschweden (Rågetaåsen, Siggaboda, Tolseboda) untersucht. Als Vergleichsstandort diente ein Naturwald im Harz (Rehberg), welcher geografisch zentral im Verbreitungsgebiet der Buche liegt und durch seine montane Höhenlage ideale Wuchsbedingungen für die Fichte liefert. Mittels dendroklimatologischer Analysemethoden wurden die wesentlichen, den radialen Zuwachs beeinflussenden Witterungsvariablen bestimmt und deren Anpassung bzw. Veränderung über verschiedene Zeitintervalle untersucht. Dendroökologische Untersuchungen ermöglichten einen Blick in die vergangene Entwicklung der Mischbestände und das Konkurrenzverhalten beider Baumarten untereinander. Diese Untersuchungen wurden auf zwei Ebenen durchgeführt: auf der Bestandesebene und auf der Ebene kleinerer Untersuchungsgruppen, durch welche direkte Konkurrenzsituationen der intra- und interspezifischen Beeinflussung analysiert werden konnten. Beide Methoden sind retrospektiver Natur und ermöglichen daher in der Hauptsache eine Analyse und Interpretation des vergangenen Zuwachsverhaltens. Doch erlauben beobachtete Trends in der Vergangenheit eine vorsichtige Prognose der Entwicklung von Waldbeständen auf vergleichbaren Standorten. Die dendroklimatologischen Analysen zeigten, dass beide Baumarten eine interessante Variabilität in den jeweiligen zuwachsbeeinflussenden Witterungsvariablen aufweisen. Die Haupteinflussgröße für den Buchenzuwachs ist ein trocken-heißer Vorjahres-Sommer mit Schwerpunkt auf den Monaten Juli und August. Dieser Einfluss zeigt sich seit Beginn des Beobachtungszeitraums, aber seit etwa 1950 verstärkt er sich bedeutend und erfährt seit Mitte der 1990er Jahre eine weitere Steigerung. Die wesentliche Witterungsvariable für den Fichtenzuwachs war bis etwa in die 1950er Jahre ein positiver Einfluss der Niederschläge im Sommer der Ringbildung mit Schwerpunkt auf dem Juni. Seither verschwindet dieser Einfluss jedoch auf fast allen Standorten und weicht einer, der Buchen ähnlichen Dürreempfindlichkeit gegenüber den vorjährigen Spätsommern. Die retrospektive Analyse der Bestandesgeschichte mittels langjähriger Zuwachszeitreihen ermöglicht eine Interpretation der vergangenen Entwicklung der Waldbestände und liefert eine Erklärung für das aktuelle Erscheinungsbild. Auf den schwedischen Standorten zeigt sich im radialen wie im Höhenzuwachs ein deutlicher Vorteil der Fichten. Auf den Standorten Siggaboda und Tolseboda bildet die Buche unter der Fichte sogar die zweite Baumschicht. Im Gegensatz zum Standort Rågetaåsen liegen diese beiden Standorte bereits außerhalb des natürlichen Verbreitungsgebiets von Buchenwäldern, aber im Gebiet der Buchen-Fichten-Wälder. Hier erkennt man deutlich einen Konkurrenzvorteil der Fichte. Am Vergleichsstandort Rehberg erkennt man dagegen das grundsätzlich große Potential der Buche, ähnliche Zuwächse zu leisten wie die Fichte. Das Konkurrenzverhältnis wirkt hier relativ ausgeglichen. Direkte Konkurrenzsituationen zwischen den Baumarten ergeben sich an Randzonen der natürlich gewachsenen reinartigen Gruppen. Es zeigte sich, dass die Buche in unmittelbarer Konkurrenz zur Fichte benachteiligt wird. Im umgekehrten Falle kann die Fichte in Abhängigkeit von ihrer sozialen Stellung sogar von einer Mischung mit Buche profitieren. Diese Ergebnisse gelten für die schwedischen Standorte wie auch für den Harz, wobei die Buchen am Rehberg ein größeres Potential erkennen lassen, dem Druck der Fichten entgegenzustehen. Der Einfluss singulärer Witterungsextreme auf das Wachstum beider Baumarten konnte an starken Zuwachseinbrüchen nachgewiesen werden. Doch in den meisten Fällen zeigte sich bereits im Folgejahr wieder ein ausgeglichenes Wachstum. Eine Herausforderung wird die zukünftige Häufung von Extremen mit fehlenden Erholungsphasen sein. Im letzten Jahrzehnt konnten bereits Sekundärfolgen großer Trockenheiten und deren Einfluss auf den Zuwachs beobachtet werden. Ergeben sich aus derartigen Situationen Schwierigkeiten für eine Baumart, ist dies ein sicheres Zeichen dafür, dass sie an ihre physiologischen Grenzen gerät. Am Standort Siggaboda konnte dies bereits für die Fichten beobachtet werden. Auch am Rehberg stellten sich in den letzten Jahren Bedingungen ein, die der Buche Schwierigkeiten bereiten. Aus den gewonnenen Erkenntnissen lässt sich entnehmen, dass das Konkurrenzverhältnis zwischen Buche und Fichte seit den letzten zwei Jahrzehnten begonnen hat, sich zu verändern. Am südexponierten Hangstandort im Harz scheint die bisher sehr konkurrenzstarke Buche an ihre physiologische Grenze zu geraten. Auf den schwedischen Standorten wird die Buche möglicherweise von wärmeren Sommern und verlängerten Vegetationsperioden profitieren, während die Fichte an die südliche, klimatische Verbreitungsgrenze der borealen Wälder gelangt zu sein scheint. / Against the background of a changing environment due to climate change the interest in prognoses of the development of forest ecosystems increases. The growth and the vitality of forest tree species will mainly be influenced by increased frequency of extreme weather conditions. The analysis of the physiological limits of tree growth has to be conducted at the borders of the natural distribution range of species. Main focus lies on economical important tree species as Common beech (Fagus sylvatica L.) and Norway spruce (Picea abies [L.] Karst.).Growth and competition performance of these two species was investigated under natural conditions in naturally grown mixed forests at both species distribution limits in Southern Sweden (Rågetaåsen, Siggaboda, Tolseboda). As a reference a natural forest in the Harz Mountains (Rehberg) was chosen. By means of dendroclimatological methods the main influencing climate variables and their modifications over time were analysed. Dendroecological methods allow the retrospective analysis of forest history and the development of the competition behaviour of both species in the past. These analyses were conducted on two levels: stand level and plot level. The latter permits the analysis of direct competition situations, intra- and interspecific. By means of these retrospective methods potential trends might be detected and thus allow forecasts for the development of forest stands on comparable sites. Dendroclimatological analyses showed, that both tree species exhibit interesting variability in its main influencing climate variables. The radial growth of beech is mainly determined by warm-dry summers of the previous year with focus on July and August. This influence increases since the 1950s and even stronger since the mid 1990s. Main factor for spruce growth was summer precipitation with focus an June. This influence nearly vanished on all sites since the 1950s. Since then the main climate signal of spruce growth is a sensitivity to drought of previous summers, equally to beech. The retrospective analysis of forest history by means of long-term tree-ring series allows an interpretation of past development of the forest stands and provides explanations for the current appearance. On the Swedish sites the advance of spruce in radial as in height growth is obvious. In Siggaboda and Tolseboda beech even forms the secondary species. These sites lie beyond northern limits of Fagus forests but within Fagus-Picea forests. The advantage of spruce is considerable. Though, on the reference site Rehberg the high potential of beech, to achieve comparable tree-ring widths, is distinct. Here, the competition performance is nearly balanced. At borders of naturally grown pure groups direct competition situations between the species can be found. It could be shown, that beech is disadvantaged under immediate competition with spruce. But in inverse situations, spruce, depending on its social state, even benefits of growing in mixture with beech. These results can be found on the Swedish sites as well as in the Harz Mountains, though, beech at the Rehberg shows a much higher potential to stand against the competition of spruce. Singular impacts of extreme weather conditions on tree growth can be clearly, but in most cases growth is regulated one year later. However, future challenge for tree species will be the increased frequency of extreme conditions without phases of recovery. In the past decade secondary complications of drought and its influence on growth could already be detected. This affects both species similarly. Does a species get disadvantaged due to such situations, would mean that it reaches its physiological limits. In Siggaboda this could be already shown for spruce and at the Rehberg for beech. As a result this study shows, that the competition situation between beech and spruce has begun to change since the last two decades. On exposed sites as the Rehberg, beech trees might reach its physiological limits. On the Swedish sites, however, beech trees could benefit from warm summers and prolonged vegetation periods. In contrast, spruce probably has reached its southern, climatically determined distribution limit of boreal forests. Dendroklimatologie Dendroökologie Fagus sylvatica Picea abies Schweden Dendroclimatology dendroecology Fagus sylvatica Picea abies Sweden ddc:630 rvk:ZC 72820 rvk:ZC 88160
16	Spatial and temporal patterns in the climate-growth relationships of Fagus sylvatica across Western Europe, and the effects on competition in mixed species forest Cavin, Liam January 2013 (has links) Increases in temperature, altered precipitation patterns, and the occurrence and severity of extreme climatic events have been important characteristics of the climate change observed to date. This has had many and diverse impacts upon the living world, with one recent observation being a global reduction in the net primary production of all terrestrial vegetation. Increases in temperature and the frequency of extreme events are predicted to continue throughout the 21st century, and can be expected to have far reaching effects on global terrestrial ecosystems. Increases in temperature and drought occurrence could fundamentally impact upon the growth rates, species composition and biogeography of forests in many regions of the world, with many studies indicating that this process is already underway. European beech, Fagus sylvatica, is one of Europe’s most widespread and significant broadleaved tree species, forming an important and frequently dominant component of around 17 million hectares of forest. However, the species is also considered to be drought sensitive. Thus, much research interest has focused on eliciting the details of its physiological response to increased water stress, whilst dendroecological studies have attempted to identify sites and regions where reductions in growth might be found. A significant knowledge gap exists regarding a multi-regional, range-wide view of growth trends, growth variability, climate sensitivity, and drought response for the species. Predicting the potential effects of climate change on competition and species composition in mixed species forests remains an important challenge. In order to address this knowledge gap, a multi-regional tree-ring network was constructed comprising of 46 sites in a latitudinal transect across the species’ Western European range. This consisted of 2719 tree cores taken from 1398 individual trees, which were used to construct tree-ring chronologies for each site in the network. As a first step in a multi-regional assessment for F. sylvatica, a combination of the tree-ring chronologies and environmental data derived from a large scale gridded climate dataset were used in a multivariate analysis. Sites in the latitudinal transect were partitioned into geographically meaningful regions for further analysis. The resulting regions were then studied using climate-growth analysis, pointer year analysis of drought years, analysis of growth trends and growth variability, in order to examine regional variation in the response of the species to climate. Furthermore, a combination of long-term monitoring data from one specific site was combined with tree-ring sampling of multiple cohorts of F. sylvatica and one co-dominant competitor, Quercus petraea, to study the effects of an extreme drought event in 1976 on mortality and subsequent recovery. Key results of the multi-regional analysis are that large scale growth reductions are not evident in even the most southerly and driest portions of the species’ range. Radial growth is increasing, both in the north and in the core of the species’ range, with southern range edge forests maintaining stable growth. However, the variability of growth from year to year is increasing for all regions, indicative of growing stress. Crucially, the southern range edge, which previous studies had identified as an ‘at risk’ region, was shown to be more robust than expected. Climate sensitivity and drought impacts were low for this region. Instead, forests in the core of the species range, both in continental Europe and in the south of the UK, were identified as having the highest climate sensitivity, highest drought impacts, and experiencing periodic reductions in growth as a result. Northern range edge forests showed little sign of being affected by drought, instead having low climate sensitivity and strongly increasing growth trends. Extreme drought was found to affect species differently: the dominant species (F. sylvatica) failed to recover pre-drought levels of growth, whilst a transient effect of competitive release occurred for the co-dominant species (Q. petraea). There was also a long term effect on the relative abundance of the two species within the woodland, due to differences in the levels of drought induced mortality experienced by the species. This shows that in the case of extreme climatic events where thresholds in the ability of species to tolerate water stress are breached, the effects of drought can be rapid and long lasting. Drought impacts can cascade beyond that experienced by the most drought sensitive species, due to changes in competitive interactions between species in mixed species forests. The implications of this work suggest opportunities, risks and strengths for F. sylvatica. In the northern portion of the species’ range, predicted increases in productivity are confirmed by recent growth trends, indicating a good outlook for the species. At the southern range edge, F. sylvatica forests exist either in locations where precipitation is high or locations where local environmental conditions buffer them from an inhospitable regional climate. These factors result in southern range edge forests which are highly resilient to the effects of increasing climate stress. It is instead in the core of the species’ range where the most sensitive forests are found. The effects of extreme drought on a range core forest demonstrated here provide a cautionary note: where drought stress tolerance thresholds are breached, rapid and long lasting effects on growth and mortality can occur, even in regions where drought has not previously been considered to pose a strong risk to the species. 577.3
17	Bois de construction et ressources forestières dans les Alpes du sud au IIe millénaire : dendrochrono-écologie et archéologie / Timber and forest management in the Southern French Alps : dendrochrono-ecology and archaeology Shindo, Lisa 01 April 2016 (has links) L’étude des pièces de bois de construction permet de dater le bâti (fermes, granges, pressoirs à vin, moulin, pont…) et de préciser les variations temporelles des relations entre les sociétés humaines d’une part, et la ressource-bois et la forêt d’autre part. La zone d’étude est la vallée de la Durance, et plus généralement, les Alpes françaises du sud. Le cadre temporel retenu comprend les époques médiévale, moderne et contemporaine, périodes pour lesquelles l’effectif du matériel étudiable est élevé.Le premier objectif est une meilleure connaissance du patrimoine bâti, au moyen de la dendrochronologie. Les types de bois mis en œuvre (essence, âge, calibre) ainsi que les phases d’abattage sont mises en évidence. Dans un contexte de changement de l’occupation humaine et d’aménagement du territoire, le développement de ce type d’étude est essentiel pour conserver les traces historiques de ce patrimoine fragile. Le deuxième objectif est de développer la compréhension de la relation entre le bâti et la forêt. Cette relation entre les populations humaines et la forêt ressource pose la question de l’état des forêts comme ressource au cours du dernier millénaire. L’histoire de l’occupation humaine dans les Alpes françaises du sud est ainsi questionnée. Pour répondre à la problématique, l’interdisciplinarité a été une nécessité. Un dialogue avec des historiens, archéologues, forestiers, informaticiens, charpentiers, anthracologues, gestionnaires, ingénieurs et ouvriers dans la construction et la restauration a été instauré. Et, la dendrochronologie a servi de creuset à la mise en œuvre d’une approche interdisciplinaire, dans le but de dépasser les limites de chaque discipline. / Timber study makes it possible to date the traditional buildings (farms, barns, wine presses, mills, bridge ...) and specify the time variations of relationships between human societies, timber uses and forest management. The studied area is the Durance valley, from Briançon to Riez region, and, more generally, the southern French Alps. The time windowof our study is the medieval times, modern and contemporary periods, when a large amount of material (wood) is available.The first purpose of my work is to establish a better knowledge of the built heritage, using dendrochronology. We have been highlighting the types of wood used (species, age, size) as well as the trees felling and human construction phases. Given the human occupation and the land use changes, the development of this type of study is essential to preserve the historical track of this fragile heritage, witness of a mountain society in strong relationship with its environment, especially forestry. The second purpose is to develop knowledge of the relationship between buildings and forest. This relationship addresses the issue of the Alpine forests state and forest as a resource, during the last millennium. Human occupation history, in the southern French Alps, is questioned.To reach these goals, interdisciplinarity has been a necessity. Thus, a dialogue was established with historians, archaeologists, foresters, computer specialists, carpenters, anthracologists, managers, engineers and workers in construction and restoration. In order to overcome the limits of each discipline, dendrochronology has been used to implement an interdisciplinary approach. Dendrochronologie Dendroécologie Patrimoine bâti Alpes françaises du sud Forêts Mélèze Pin sylvestre Dendrochronology Dendroecology Built heritage Southern French Alps Forests Larch Scots pine
18	Ein dendroökologischer Vergleich zur Wirkung der Stickstoffverfügbarkeit auf das Dickenwachstum von Bergahorn und Rotbuche Brisch, Andreas 28 April 2014 (has links) (PDF) In der vorliegenden Arbeit wurde das Wachstum von Bergahorn und Buche mit dendroökologischen Methoden untersucht. Dies geschah vor dem Hintergrund der Ausbreitung des Bergahorns und der Eutrophierung der Landschaft. Die daran anknüpfende Fragestellung ist: Begünstigt Eutrophierung den Bergahorn? Die Untersuchung fand in einem Waldstück in Mecklenburg-Vorpommern statt. Dabei wurden von 42 Bergahornen und 38 Buchen Bohrkerne für die Vermessung der Jahrringe genommen. Weiterhin wurde neben jedem beprobten Baum das C/N-Verhältnis des Oberbodens bestimmt (n=80). Die Auswertung der Daten erfolgte durch drei Ansätze: 1.) Der Einfluss einer Hähnchenmastanlage auf beide Baumarten wurde untersucht. 2.) Die Beziehung zwischen dem C/N-Verhältnis des Bodens und dem Wachstum der Bäume wurde verglichen. 3.) Auf unterschiedlichen Standorten (C/N-Verhältnis) wurde die Abhängigkeit des Wachstums der Bäume vom Klima untersucht. Dabei wurde die Reaktion der beiden Arten auf das Klima verglichen. Die deutlichsten Ergebnisse wurden durch den zweiten Ansatz erzielt. Das C/N-Verhältnis des oberen Bodens lag zwischen 12,4 und 17,4. In diesem Bereich wurde eine positive Korrelation zwischen dem C/N-Verhältnis des Bodens und dem Wachstum der Bäume festgestellt. Die Ergebnisse deuten auf eine Schädigung der beiden Arten durch Stickstoff hin, welche beim Bergahorn (R² = 0,30) stärker als bei der Buche (R² = 0,18) ausgeprägt ist. Daraus folgt, dass der Bergahorn durch die Eutrophierung geschwächt wird. Ein Einfluss der Mastanlage auf das Wachstum der Bäume wurde nicht festgestellt. Auf das Klima reagierten beiden Arten ähnlich. Es bestand ein positiver Zusammenhang zwischen dem Niederschlag und dem Wachstum der Bäume. Der Einfluss des Standorts auf die Klimareaktion der Bäume war uneindeutig. / Within this thesis the growth of sycamore (Acer pseudoplatanus L.) and beech (Fagus sylvatica L.) was investigated by applying dendroecological methods. The overall idea derived from the distribution of sycamore and the eutrophication of the environment leading to the question whether eutrophication promotes the spread of sycamore. The investigated forest was located in Mecklenburg-Vorpommern. To inspect the annual rings of the trees 42 samples were taken off the trunk of sycamore while 38 samples were gathered from beech. Apart from that the ratio of carbon and nitrogen within the topsoil of every single tree was analysed (n=80). The evaluation of the data employed three approaches. 1.) The impact of a poultry farm on both species was investigated. 2.) The relation of the C/N-ratio of the soil was compared to the growth of the trees. 3.) The connection between the growth of the trees and the climate was examined for the various sites (in terms of the C/N-ratio). Thereby the response of the species onto the climate was compared. The most precise results were achieved within the second approach. Values for the C/N-ratio of the upper soil lay between 12.4 and 17.4. A positive correlation between the C/N-ratio of the soil and the growth of the trees was discovered within this range. The results suggest an adverse effect to both of the species. This effect is more intense regarding sycamore (R² = 0,30) compared to beech (R² = 0,18). It can therefore be concluded that sycamore is weakened by eutrophication. An effect of the poultry farm on the species was not observed. Both species responded similarly regarding climate parameters. A positive relation between precipitation and growth of the trees was found. The impact of the location on the climate reaction of the trees was ambiguous. Klimareaktion Fagus Acer Mastanlage Eutrophierung C/N-Verhältnis nitrogen eutrophication dendroecology dendro ecology climate growth relation Fagus Acer c/n-ratio ddc:634 rvk:ZC 88160
19	13,000 years of fire activity in a temperate rainforest on the Central Coast of British Columbia, Canada Hoffman, Kira M. 10 April 2018 (has links) While wildfire is globally most common in the savanna-grassland ecotone, the flammability of coastal temperate rainforests is considered low and little is known regarding historic fire activity. Reconstructing historical fire activity typically requires dendrochronological records from fire-scarred trees and post-fire cohorts, but this type of information is rare in perhumid temperate rainforests, which are dominated by dense fuels with high year-round moisture content. I reconstructed historic fire activity using fire scars, tree rings, soil charcoal, and remote sensing techniques in a 2000 km2 island group located within the Hakai Lúxvbálís Conservancy on the coastal margin of central British Columbia. I broadly assessed 13,000 years of fire activity with charcoal deposited in soils, and reconstructed late Holocene fire events with a 700-year chronology built from living fire-scarred trees and stand establishment data. I used a weight of evidence approach to hypothesize the origins of fires and whether First Nations intentionally utilized fire for resource management. Low-severity fires occurred most frequently in forests surrounding former First Nations habitation sites, and lightning strikes do not occur often enough to explain the observed temporal or spatial patterns of fire activity in the study area. Low-severity fires occurred approximately every 39 years, and were 25 times more likely to occur than previously estimated. Fires influenced the composition and structure of vegetation by creating a mosaic of vegetation types in different stages of succession, and thus increased the abundance of culturally important food plants. Fire events have not occurred in the study area since 1893, which also coincides with the reduction of First Nations activities in their traditional territories. My data are consistent with the hypothesis that humans intentionally used fire to manage resources, though further research and ethnographic data collected elsewhere in the region is required to corroborate these findings. Ecological legacies of historic fires remain visible on the present day landscape, and by reconstructing the historic range of fire cycle variability we gain a better understanding of human-driven fire activity and the abrupt changes that occurred in the 20th century. / Graduate Fire ecology Traditional fire management British Columbia Perhumid rainforests Coastal Temperate Rainforest Canada Cultural burning Dendroecology Holocene Soil charcoal Ecological legacies Remote sensing Ethnoecology Western redcedar
20	Adaptation au changement climatique et potentiel évolutif du Douglas (Pseudotsuga menziesii Franco.) : rôle des traits hydrauliques, microdensitométriques et anatomiques du xylème / Potential of evolutionary adaptation of Douglas fir (Pseudotsuga menziesii Franco.) to drought : role of resistance to cavitation, xylem microdensity and pit anatomical traits. Chauvin, Thibaud 24 January 2019 (has links) Plusieurs dépérissements du début du XXe siècle ont montré que le Douglas français était vulnérable à la sécheresse. La question de savoir si les forêts de Douglas peuvent s'adapter au nouveau climat plus chaud et plus sec est une préoccupation majeure en France. Nous avons estimé la variation de la résistance à la cavitation d'un ensemble de provenances de Washington, de l'Oregon et de Californie dans deux expériences de jardins communs situées dans le sud de la France. Nous avons étudié les relations entre la résistance à la cavitation, la microdensité du xylème et l'anatomie du tronc et des branches. Nous avons constaté que la pression de sélection climatique dans la zone naturelle a façonné l'adaptation locale pour la résistance à la cavitation, la microdensité et l'anatomie des ponctuations du xylème. Les provenances de Californie intérieure tendent à être plus résistantes à la cavitation, avec une plus grande densité de bois d'été et des ponctuation plus sûres que les provenances de Californie côtière, puis de Washington et d'Oregon. Cependant, nous avons également constaté des variations importantes à l'intérieur d'une même région qui ne pouvaient pas être expliquées par les données climatiques disponibles. Nous avons trouvé différentes relations structure-fonctions, selon le niveau d'observation (arbre ou provenance) et la partie de l'arbre (tronc ou branche). Par exemple, au niveau individuel, les arbres les plus résistants à la cavitation ont des branches plus denses avec une ouverture de ponctuation plus petite, tandis qu'au niveau de la provenance, les arbres les plus résistants à la cavitation ont du bois moins dense dans le tronc et les branches, et des ponctuations plus sûrs. Dans l'ensemble, nous concluons qu'il existe un potentiel d'adaptation évolutive pour la résistance à la sécheresse du Douglas, disponible à différents niveaux, individuel et de provenance. Cependant, dans un contexte d'amélioration des arbres, le réseau complexe de relations entre la résistance à la cavitation, la microdensité et les traits anatomiques doit être soigneusement examiné afin d'éviter une éventuelle réponse corrélative défavorable à la sélection. / Several turn-of-the-20th-century diebacks have shown that French Douglas-fir was vulnerable to drought. Whether the Douglas-fir forests can adapt to the new warmer and dryer climate is a key concern in France. We estimated variation of resistance to cavitation traits of a set of Washington, Oregon and Californian provenances in two common garden experiments located in the south of France. We studied the relationships between resistance to cavitation, xylem microdensity and pit anatomy in the trunk and branches. We found that climatic selection pressure in the natural area has shaped local adaptation for resistance to cavitation, microdensity and pit's anatomy. Inland California provenances tend to be significantly more cavitation resistant, with a denser latewood and safer pits than coastal Californian, then Washington and Oregon provenances. However, we also found significant within region variation that could not be explained by the available climatic data. We found different structure-functions relationships, according to the observation level (tree or provenance) and the tree part (trunk or branch). For example, at the individual level, the most cavitation-resistant trees have branches with denser latewood and smaller pit aperture, while at the provenance level, the most cavitation resistant provenances have less dense wood in both trunk and branches, and safer pits. Overall, we conclude that there is a potential for evolutionary adaptation for resistance to drought in Douglas-fir, available at different levels, individual and provenance. However, in a tree improvement context, the complex network of relationships among the resistance to cavitation, the microdensity and the anatomy traits should be carefully monitored in order to avoid possible unfavourable correlative response to selection. Douglas Adaptation Changement Climatique Dendroécologie Provenance Résistance à la Cavitation Anatomie des Ponctuations Douglas fir Adaptation Climate Change Dendroecology Provenance Cavitation Resistance Pit Anatomy 577.22

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