Přízemní ozon jako jeden z faktorů oxidativního stresu v podmínkách horských lesů. / Surface ozone as a factor of oxidative stress in mountain forests.

Bendáková, Hana

January 2011

This study presents mountain forest Norway spruce (Picea abies) injured by surface ozone and oxidative stress. Norway spruce is not a sensitive species but it is the most representative tree in our country and this is the reason to pay attention on its injury. Study was connected to the ozone measurement by CHMI in Jizerske mountains. Aim of our study was to find influence of surface ozone on the forest and show correlation between ozone concentrations, altitude and Norway spruce injury. Ozone concentrations are growing with the altitude. Increasing percentage of injury with growing concentrations and altitude was expected. Needles were collected at the altitude 750-1100 meters. Collected needle years were 2006, 2007 and 2009. The 2009 year was not evaluated because no symptoms were found. Injury was observed on the maroscopical, microscopical and biochemical level. Visual injury was assessed by percentage of injured needle surface by chlorosis and necrosis. Microscopical analysis studied injury on cross and longitudinal sections of needles. On the longitudinal sections were visible typically bone-cells. These cells have lost its shape by ozone stress and were narrowed in its width. Bone-cells were best visible near the stomata. Four symptoms were observed on the cross sections: tannin...

Beror mortalitet hos tall (Pinus sylvestris) och gran (Picea abies) på art, storlek eller markslag? : Trädskiktet i Säby Västerskog, 1937 jämfört med 2022 / Does the mortality of Scots pine (Pinus sylvestris) and Norway spruce (Picea abies) depend on species, size, or ground type? : The tree layer in Säby Västerskog, 1937 compared to 2022

Janiec, Karolina

January 2022

Tall och gran är de vanligaste trädarterna i svenska skogar. Förutom deras ekonomiska värde är de viktiga värdar för andra organismer och nyttjas oftast när de är döda. Säby Västerskog har skyddats i hundra år och är ett urskogsartat naturreservat där inga fördjupade analyser av dynamiken i trädskiktet har gjorts sedan 1930-talet. Denna studie gjordes med syfte av att uppdatera informationen om reservatets trädstatus samt att undersöka mortaliteten hos skogens barrträd. Det som undersöktes var om mortaliteten skiljde sig mellan trädslag, storleksklass och markslag. Förändringar i grundytan och balansen mellan arten undersöktes också. Träd identifierades med hjälp av data från en detaljerad karta från 1937, det togs mått på deras diameter och noterades vilken mark de stod på. Fler granar än tallar har dött i reservatet sedan 1937. Trädens storlek spelade ingen roll för tallars mortalitet, men väl för granar. Granens mortalitet skiljde sig inte mycket mellan olika markslag, men verkade spela roll för tall som hade högst mortalitet på våtmark och lägst på blockmark. Trots mortaliteten ökade trädens grundyta. Balansen mellan arterna förblev samma. / Scots pine and Norway spruce are the most common tree species in Swedish forests. They are important hosts to other organisms – mostly as dead wood. Säby Västerskog has been protected in hundred years but no in-depth analyses of dynamics in the tree layer have beendone since the 1930s. This study was done to update the information about the reserve’s tree status and examined mortality of conifers. I evaluated if mortality depended on tree species, size of the trees, or the type of ground they stood on. I also examined changes in trees’ basal area. The trees were identified with help of an old, detailed map from 1937. Their diameters were measured and the ground type they were standing on was noted. More spruces than pines had died in the reserve since 1937. Mortality varied with the tree size for spruce but not for pines. The mortality of pines varied among ground types (with the highest on wetlands and lowest on boulder deposits), but not for spruce. Despite high mortality basal area had increased. The balance between the species remained the same.

mortality

Pinus sylvestris

Picea abies

nature reserve

Säby Västerskog

dynamics in tree layer

protected forest

mortalitet

Pinus sylvestris

Picea abies

naturreservat

Säby Västerskog

dynamik i trädskiktet

skyddad skog

Ecology

Ekologi

Structurer l'incertitude et la variabilité dans les modèles de dynamique forestière - Application à la coexistence du Sapin et de l'Epicéa en forêt de montagne

Vieilledent, Ghislain

11 February 2009

Les gestionnaires forestiers sont demandeurs d'une aide à la décision pour la conservation du mélange Sapin et Epicéa en forêt de montagne. Pour répondre à leur attente, nous avons modélisé, pour les deux espèces, les fonctions démographiques (croissance, mortalité et recrutement) et les fonctions d'allométries à partir de données de terrain. Ces fonctions ont été implémentées dans un modèle de dynamique forestière afin d'améliorer les connaissances sur la dynamique naturelle des deux espèces et d'envisager des tests de scénarios sylvicoles. L'estimation statistique des paramètres des modèles a été effectuée dans un cadre bayésien hiérarchique. Elle a permis de mettre en évidence et de quantifier les différences entre espèces : le Sapin, espèce tolérante à l'ombre comparativement à l'Epicéa, est moins sensible à l'autoéclaircie, a une croissance plus forte et un taux de recrutement plus important à faibles niveaux de lumière que l'Epicéa. Les modèles développés ont pris en compte l'incertitude sur les observations et la variabilité spatio-temporelle des processus. La variabilité individuelle (ou intraspécifique) et temporelle (interannuelle et intra-individuelle) est forte et tend à égaliser la fitness des deux espèces en inversant la hiérarchie des espèces localement dans l'espace ou sporadiquement dans le temps. Les premières simulations à l'aide du simulateur Samsara2 indiquent un meilleur comportement du modèle lorsque la variabilité spatio-temporelle est inclue dans les processus. La variabilité assure une structuration en hauteur et en diamètre ainsi qu'une évolution de la surface terrière qui correspondent à des patterns plus réalistes que lorsque la variabilité n'est pas prise en compte. A l'issue des premières simulations sur un peuplement test en mélange, on observe une exclusion compétititve systématique de l'Epicéa par le Sapin. Les mécanismes égaliseurs associés à la variabilité ne parviennent pas à contrebalancer l'avantage compétitif du Sapin sur l'Epicéa. Toutefois, la dynamique transitoire du système est lente et la coexistence apparente des deux espèces peut s'étaler sur plusieurs centaines d'années.

[SDU] Sciences of the Universe

[MATH] Mathematics

Abies alba

Allométrie

Coexistence

Picea abies

Recrutement

Démographie

Variabilité

Dynamique forestière

Incertitude

Lumière

Mortalité

Détection et analyse non destructive de caractéristiques internes de billons d'Epicéa commun (Picea abies (L.) Karst.) par tomographie à rayons X

Longuetaud, Fleur

10 1900

La tomographie par rayons X permet un accès direct aux caractéristiques internes des billons scannés par l'intermédiaire des variations de densité et de teneur en eau. L'objectif de ce travail est de démontrer la faisabilité de la détection automatique de caractéristiques dans des billons à des fins d'analyses scientifiques. Nous disposons pour cela d'une base d'images tomographiques de 24 épicéas communs (Picea abies (L.) Karst.) obtenues avec un scanner médical. Les arbres sont représentatifs de différents statuts sociaux et proviennent de quatre peuplements du nord-est de la France, eux-mêmes sont représentatifs de plusieurs classes d'âge, de densité et de fertilité. Les procédures de détection développées sont les suivantes : - détection de la moelle dans les billons, y compris en présence de nœuds et/ou d'excentricité des cernes. La précision de la localisation est inférieure au millimètre ; - détection de la limite aubier/duramen dans les billons, y compris en présence des nœuds (principale source de difficulté). L'erreur sur le diamètre du duramen est de 1.8mm soit une erreur relative de 1.3%. ; - détection de la localisation des verticilles et une comparaison à une méthode optique ; - détection des nœuds individualisés. Cette procédure permet de compter les nœuds dans un billon et de les localiser (hauteur dans le billon et azimut); cependant, la validation de la méthode et l'extraction du diamètre et de l'inclinaison des branches reste à effectuer. Une application de ce travail a été l'analyse de la variabilité de la quantité d'aubier dans le tronc: en intra-arbre, la largeur d'aubier était constante sous la base du houppier; en inter-arbre, une forte corrélation avec la quantité de branches vivantes a notamment été mise en évidence. De nombreuses analyses sont envisageables à partir des résultats de notre travail, parmi lesquelles: l'étude architecturale des arbres avec le suivi de la moelle dans les billons et l'occurrence des prises de relais sur l'axe principal, l'analyse des variations radiales de la forme du duramen, l'analyse de la distribution des nœuds dans les billons.

[SDV] Life Sciences

Tomographie

Détection automatique

Moelle

Aubier

Duramen

Noeuds

Verticilles

épicéa

Picea abies

Billons

Qualité du bois

Défauts

Analyse d'images

Explaining temporal variations in soil respiration rates and delta¹³C in coniferous forest ecosystems

Comstedt, Daniel

January 2008

<p>Soils of Northern Hemisphere forests contain a large part of the global terrestrial carbon (C) pool. Even small changes in this pool can have large impact on atmospheric [CO2] and the global climate. Soil respiration is the largest terrestrial C flux to the atmosphere and can be divided into autotrophic (from roots, mycorrhizal hyphae and associated microbes) and heterotrophic (from decomposers of organic material) respiration. It is therefore crucial to establish how the two components will respond to changing environmental factors. In this thesis I studied the effect of elevated atmospheric [CO2] (+340 ppm, ¹³C-depleted) and elevated air temperature (2.8-3.5 oC) on soil respiration in a whole-tree chamber (WTC) experiment conducted in a boreal Norway spruce forest. In another spruce forest I used multivariate modelling to establish the link between day-to-day variations in soil respiration rates and its δ¹³C, and above and below ground abiotic conditions. In both forests, variation in δ¹³C was used as a marker for autotrophic respiration. A trenching experiment was conducted in the latter forest in order to separate the two components of soil respiration. The potential problems associated with the trenching, increased root decomposition and changed soil moisture conditions were handled by empirical modelling. The WTC experiment showed that elevated [CO2] but not temperature resulted in 48 to 62% increased soil respiration rates. The CO2-induced increase was in absolute numbers relatively insensitive to seasonal changes in soil temperature and data on δ¹³C suggest it mostly resulted from increased autotrophic respiration. From the multivariate modelling we observed a strong link between weather (air temperature and vapour pressure deficit) and the day-to-day variation of soil respiration rate and its δ¹³C. However, the tightness of the link was dependent on good weather for up to a week before the respiration sampling. Changes in soil respiration rates showed a lag to weather conditions of 2-4 days, which was 1-3 days shorter than for the δ¹³C signal. We hypothesised to be due to pressure concentration waves moving in the phloem at higher rates than the solute itself (i.e., the δ¹³C–label). Results from the empirical modelling in the trenching experiment show that autotrophic respiration contributed to about 50% of total soil respiration, had a great day-to-day variation and was correlated to total soil respiration while not to soil temperature or soil moisture. Over the first five months after the trenching, an estimated 45% of respiration from the trenched plots was an artefact of the treatment. Of this, 29% was a water difference effect and 16% resulted from root decomposition. In conclusion, elevated [CO2] caused an increased C flux to the roots but this C was rapidly respired and has probably not caused changes in the C stored in root biomass or in soil organic matter in this N-limited forest. Autotrophic respiration seems to be strongly influenced by the availability of newly produced substrates and rather insensitive to changes in soil temperature. Root trenching artefacts can be compensated for by empirical modelling, an alternative to the sequential root harvesting technique.</p>

Autotrophic

Boreal forest

Elevated CO2

13C

Natural abundance of stable isotopes

Picea abies

PLS

Root respiration

Soil respiration

Biology

Biologi

Wood fibre deformation in combined shear and compression

De Magistris, Federica

January 2005

Mechanical pulping for producing pulps from softwood suitable for printing grade papers, like news, is a highly energy-intensive process consuming around 2000 kWh/t in electrical energy. Due to increasing energy costs and environmental issues there is a high demand for decreasing this energy consumption. The mechanical treatment of wet wood pieces in a refiner, in the mechanical pulp plant, is a complex mechanical loading. This is a process occurring between rotating discs at high speed and temperatures of 140 °C - 160 °C, where by means of shear and compression forces the fibres are separated and then made flexible, fibrillated and collapsed for good bonding ability. In this process also fines are created giving the optical properties of the paper. In mechanical pulping only a fraction of the applied energy is used for the structural changes of the wood material. Thus fundamental studies of the loading modes of wood under refining conditions and in particular under combined shear and compression loading are desired to gain more information regarding the possibility of affecting the mechanical pulping in an energy efficient way. The possibilities to study the behaviour of wood under a combined shear and compression load were in this thesis investigated using two methods: the Iosipescu shear test and the Arcan shear test. In both apparatus different combinations of shear and compression load were achieved by different rotations of the shear test device itself. Measurements with the Iosipescu device on a medium density fibreboard showed good agreement between experimental results and numerical simulations. Finite element analysis on wood showed, however, that with the use of a homogeneous material in the model the level of strain reached would be ten times smaller than experimentally measured. This fact is probably due to the honeycomb structure of the wood cells that allows for different local deformations that could not be represented by a continuous material model. Thus to study the deformations on the fibre level of wood an experimental equipment that uses smaller samples was needed. With a modified Arcan shear device such deformations under combined shear and compression load and in pure compression were possible showing different deformation patterns. During pure compression the cell walls bend in a characteristic “S” shape, independently of the shape of the fibre cells and their cell wall thickness. Under combined shear and compression, however, mainly the corners of the fibre cells deform giving a “brick” shape to the cells. In a second deformation performed in compression, the fibre cells follow the same deformation pattern as given by the first deformation type whether in compression or in combined shear and compression. The interpretation is that permanent defects in the cells themselves are introduced already in the first load cycle of the wood samples. The energy used under the different loading conditions showed that the first deformation required the largest amount of energy, for all loading conditions. The deformation in compression required larger amounts of energy than the deformation in combined loads. For subsequent deformations less energy was needed for compression if a combined load had preceded it. Due to the fact that less energy is needed to start to deform wood in combined load than under compression load, the application of a combined load as a first cycle may thus be a way to permanently deform fibres using less energy. To investigate the critical parameters determining the permanent deformation of cells, a finite element model of a network of twelve cells was developed. Special care was given to the material properties to study how the variation of the fibril angle in the different layers affects the deformation pattern of the wood fibres under the different loading conditions. The model shows that whether modelled as homogeneous linear isotropic material or as an orthotropic material defined for every layer of the cells wall, no difference in the deformation of the network of the fibres was achieved. It is probable that the deformation type is more determined by the geometry of the fibres themselves than by their material properties / QC 20101005

Arcan

compression

density

energy

finite element analysis

Iosipescu

Picea abies

shear

wood

Cellulose and paper engineering

Cellulosa- och pappersteknik

The effect of hydrodynamic stress on plant embryo development

Sun, Hong

31 March 2010

The effect of steady shear stress on somatic embryos were investigated in a flow chamber and evaluated at different time intervals using microscopy technique. The development of meristematic cell clusters, i.e. the immature embryos, into a polarized somatic embryo, and the effect on the localization of the suspensor cells that form during development of the immature embryos, were studied as a function of shear stresses. With the distribution and growth rate of the meristematic and suspensor cells, the effect of stress on the embryo development was established. Furthermore, the effect of shear stress on the cells at molecular level, the reaction of integrin-like proteins, the production of reactive oxygen species and the pore size of the cell walls involved in the shear stress responses, were investigated with molecular techniques. In general, shear stress inhibits meristematic cells growth. Meristematic cells grow fastest at shear rate of 86 s-1 among all the tested shear stress conditions. By combining the results of meristematic cells growth and suspensor cells formation, it suggests that there is a critical shear rate between 86 and 140 s-1, at which no suspensor cells form. The unidirectional flow with different shear stresses helps the polarized growth and the unidirectional alignment of suspensor cells. Reactive oxygen species and integrin-like protein are detected in the stressed cells as cellular responses to shear stresses. By monitoring the pore size and uptake time of cells to macromolecules with solute-exclusive experiments, it suggests that the stressed cells expedite the response to plasmolyzing components that are used to induce maturation treatment thus affect the response to maturation stimuli.

Hydrodynamic stress

Embryogenesis

Somatic embryo

Pore size

Signal transduction

Norway Spruce (Picea abies)

Hydrodynamics

Plant propagation

Somatic embryogenesis

Bioreactors

Stress Related Emissions of Norway Spruce Plants

Pettersson, Marie

January 2007

<p>The interactions between plants and insects are mediated by volatile molecules. Plants respond to stress by biosynthesis of chemical substances which can deter invading insects or pathogens. Some of these substances are volatile and are emitted to the surroundings and may attract or repel insects. Information about the susceptibility of individual plants to infestation, their volatile emissions and chemical defence is of interest, for example in selecting plants for tree breeding programs.</p><p>This research was focused on finding volatile chemical markers of resistance in Norway spruce plants that do influence insects associated to conifers. Collection of headspace volatiles by SPME followed by separation and identification with GC-MS is effective in investigating biological systems with a minimum of disturbance. This method has here been used to investigate Norway spruce plants of different ages and stress conditions as well as trapping semiochemicals like nepetalactone emitted by the spruce shoot aphids. It was even possible to analyse the emission of single needles <i>in vivo</i> and obtain a chemical pattern of the site of the stress reaction. Seedlings of different ages showed differences in chemical composition of emitted volatiles, with the pine weevil repellent (<i>S</i>)-(-)-limonene as one of the main compounds. Wounded phloem of conventional plants emitted high amounts of monoterpenes while the phloem of mini plants emitted (3Z)-hexenal and (3Z)-hexen-1-ol.</p><p>Norway spruce plants did respond to different stress elicitors with similar response, regardless of their genetic origin. The emissions from stressed Norway spruce plants mainly consist of (<i>E</i>)-β-farnesene, (<i>E,E</i>)-α-farnesene, (<i>E</i>)-α-bisabolene, (<i>R</i>)-(-)-linalool and methyl salicylate. Emissions from live spruce shoot aphids were detected during autumn periods, and a method to separate and identify the four diastereomers of nepetalactone by GC-MS and characteristic m/z-fragments was accomplished.</p>

volatiles

terpenes

green leaf volatiles

stress response

nepetalactone

SPME

Picea abies

Hylobius abietis

Cinara pillicornis

Chemistry

Kemi

Kai kurių medelyno ekologizavimo priemonių tyrimas / Research of some nurseries’ ecology tools

Grybas, Saulius

21 June 2010

Magistro darbe tiriama kai kurių medelyno ekologizavimo priemonių įtaka paprastosios eglės (Picea abies (L.) H. Karst.) sodmenų augimui, vystimuisi, išlikimui, išeigai, dirvožemiui. Darbo objektas – vienerių metų paprastosios eglės sėjinukai ir 2+1 sodinukai bei sideralinis pūdymas. Darbo tikslas – ekologizuoti miško medelyną, pakeičiant mineralines trąšas organinėmis. Darbo metodai – literatūros loginė analizė, apskaitos aikštelių metodas; matematinės statistikos metodai. Darbo rezultatai. Paprastosios eglės sodmenų (pirmamečių sėjinukų ir 2+1 sodinukų) biometrinių požymių matavimai rodo, kad tręšimas kompostu, pagamintu iš mėšlo ir durpės, naudojant 50 ir 100 t ha-1 komposto normas yra netikslingas, nes sodmenims neužtikrinamas pakankamas mitybos lygis. Eglės sodmenis tikslinga tręšti 150 t ha-1 ir didesne komposto norma. Ši tręšimo norma sąlygoja panašius, kaip ir tręšiant mineralinėmis trąšomis, daugelio sodmenų antžeminės ir požeminės dalies biometrinius matavimus (augalų aukštį, šaknies kaklelio skersmenį, šoninių pumpurų skaičių, spyglių ilgį, pagrindinės šaknies ilgį, pirmos eilės šoninių šaknų skaičių). Dažniausiai biometriniai eglių sodmenų parametrai yra mažesni, nei mineralinėmis trąšomis tręštų sodmenų, tačiau skirtumai nėra esminiai. Eglės sodinukų, tręštų 150 t ha-1 komposto norma metinis aukščio prieaugis buvo 10 proc. patikimai mažesnis, nei tręštų mineralinėmis trąšomis sodinukų. Geriausiai eglės sėjinukai ir sodinukai augo dirvožemį patręšus 150 t ha-1... [toliau žr. visą tekstą] / The master thesis examined some of the nurseries’ ecology tools impact on simple spruce (Picea abies (L.) H. Karst.) planting stock cultivation, growth, survival, stocks yield, soil. Object of the work – first year seedlings and first year sapling of simple spruce and sideralic lea. The aim of work – to assess ecological organic fertilizer (green manure and compost) usage impact on simple spruce planting stock growth. Methods of the work – logical analysis of the literature, method of accounting sites, methods of mathematical statistics. The results of the work. Simple spruce planting stocks’ (first year seedlings and first year sapling) biometric features measurements demonstrate that fertilization with compost, made from dung and peat, with 50 and 100 t ha-1 compost rate is pointless, as sufficient nutritional level is not ensured for spruce planting stocks. Spruce planting stocks are appropriate to fertilize with 150 t ha-1 and a higher compost rate. This results in similar fertilization rate, as the fertilization with mineral fertilizers, the biometric measurements of many saplings in surface and underground part (plant height, root neck diameter, lateral bud number, spine length, main root length, the number of lateral root in first order). Frequently the biometric parameters of spruce planting stocks are lower than fertilized with mineral fertilizers, but the differences are not essential. The annual growth of spruce saplings, fertilized with 150 t ha-1 compost rate was... [to full text]

Ecology and Environmental Studies

Kompostas

Žalioji trąša

Eglės sodmenys

Biometriniai požymiai

Sodmenų išeiga

Picea Abies

Green manure

Compost

Seedlings

Sapling

Explaining temporal variations in soil respiration rates and delta13C in coniferous forest ecosystems

Comstedt, Daniel

January 2008

Soils of Northern Hemisphere forests contain a large part of the global terrestrial carbon (C) pool. Even small changes in this pool can have large impact on atmospheric [CO2] and the global climate. Soil respiration is the largest terrestrial C flux to the atmosphere and can be divided into autotrophic (from roots, mycorrhizal hyphae and associated microbes) and heterotrophic (from decomposers of organic material) respiration. It is therefore crucial to establish how the two components will respond to changing environmental factors. In this thesis I studied the effect of elevated atmospheric [CO2] (+340 ppm, 13C-depleted) and elevated air temperature (2.8-3.5 oC) on soil respiration in a whole-tree chamber (WTC) experiment conducted in a boreal Norway spruce forest. In another spruce forest I used multivariate modelling to establish the link between day-to-day variations in soil respiration rates and its δ13C, and above and below ground abiotic conditions. In both forests, variation in δ13C was used as a marker for autotrophic respiration. A trenching experiment was conducted in the latter forest in order to separate the two components of soil respiration. The potential problems associated with the trenching, increased root decomposition and changed soil moisture conditions were handled by empirical modelling. The WTC experiment showed that elevated [CO2] but not temperature resulted in 48 to 62% increased soil respiration rates. The CO2-induced increase was in absolute numbers relatively insensitive to seasonal changes in soil temperature and data on δ13C suggest it mostly resulted from increased autotrophic respiration. From the multivariate modelling we observed a strong link between weather (air temperature and vapour pressure deficit) and the day-to-day variation of soil respiration rate and its δ13C. However, the tightness of the link was dependent on good weather for up to a week before the respiration sampling. Changes in soil respiration rates showed a lag to weather conditions of 2-4 days, which was 1-3 days shorter than for the δ13C signal. We hypothesised to be due to pressure concentration waves moving in the phloem at higher rates than the solute itself (i.e., the δ13C–label). Results from the empirical modelling in the trenching experiment show that autotrophic respiration contributed to about 50% of total soil respiration, had a great day-to-day variation and was correlated to total soil respiration while not to soil temperature or soil moisture. Over the first five months after the trenching, an estimated 45% of respiration from the trenched plots was an artefact of the treatment. Of this, 29% was a water difference effect and 16% resulted from root decomposition. In conclusion, elevated [CO2] caused an increased C flux to the roots but this C was rapidly respired and has probably not caused changes in the C stored in root biomass or in soil organic matter in this N-limited forest. Autotrophic respiration seems to be strongly influenced by the availability of newly produced substrates and rather insensitive to changes in soil temperature. Root trenching artefacts can be compensated for by empirical modelling, an alternative to the sequential root harvesting technique.

Autotrophic

Boreal forest

Elevated CO2

13C

Natural abundance of stable isotopes

Picea abies

PLS

Root respiration

Soil respiration

Biology

Biologi