Vliv managementu na růst a tvorbu zásob karbohydrátů druhu \kur{Molinia caerulea}. / Effect of management on growth and carbohydrate reserves of \kur{Molinia caerulea}.

BARTOŠ, Michael

January 2008

In the study effect of fertilization and abandonment on growth and carbohydrate storage dynamic of Molinia caerulea were studied. During the year 2006 plants were harvested six times to cover whole vegetation season. Carbohydrate content was determinate in both basal internodes and roots. Growth parameters were compared with carbohydrate reserves.

Determining the effects of peatland restoration on carbon dioxide exchange and potential for climate change mitigation

Gatis, Naomi Le Feuvre

January 2015

Over the last millennium peatlands have accumulated significant carbon stores. Drainage for agricultural use has been widespread and has altered the functioning of these mires: shifting them towards carbon release. Recently, in recognition of the range of ecosystem services derived from these landscapes peatland restoration projects have been initiated. Carbon storage is often cited amongst the aims of these projects, especially since the inclusion of rewetting wetlands in the Kyoto Protocol. However, little is known about the effects of ditch blocking on CO2 fluxes, particularly in Molinia caerulea dominated peatlands, a species common on degraded peatlands which tolerates a range of water table depths. This thesis aims firstly to quantify CO2 fluxes from a drained Molinia caerulea dominated blanket bog and to improve understanding of the temporal and spatial controls on these fluxes and secondly, to quantify the immediate effects of ditch blocking. Closed chamber measurements of net ecosystem exchange and partitioned below-ground respiration from control-restored paired sites were collected over the growing seasons immediately pre- (2012) and post-restoration (2013/2014). These flux data were coupled with remotely sensed data quantifying vegetation phenology and structure with a fine resolution (daily/cm) over large extents (annual/catchment). Although temporal variation in water table depth was not related to CO2 fluxes, the seasonal average related to vegetation composition suggesting raising water tables may promote a change in vegetation composition within these species-poor ecosystems. The distribution of water table depths, vegetation composition and CO2 fluxes did not vary with proximity to drainage ditches despite their prominence. An empirical model suggests in a drained state these peatlands are CO2 sources, indicating carbon previously accumulated is gradually being lost. Data suggest restoration does not always significantly affect water tables and consequently CO2 fluxes in the short-term. Where shallower water tables were maintained during dry conditions photosynthesis decreased and heterotrophic respiration increased: enhancing carbon release. Research undertaken during atypical weather has been unable to determine if restoration will be able to raise water tables sufficiently to protect the existing peat store and promote the vegetation change required to reinstate CO2 sequestration in the longer-term.

550

De la complexité fonctionnelle et écophysiologique des ressources lumières, azote et eau dans le réseau précoce d'interactions entre le jeune chêne (Quercus petraea) et deux Poacées (D. cespitosa et M. caerulea) : conséquences pour la régénération des chênaies tempérées / Functional and ecophysiological complexity of light, nitrogen and water resources in early interactions between oak seedlings (Quercus petraea) and two Poacea (D.cespitosa and M. caerulea) : consequences on oak temperate forest regeneration

Vernay, Antoine

04 December 2017

La régénération forestière, naturelle ou non, est sujette à de nombreux échecs du fait d’une compétition importante entre les espèces de sous-bois et les jeunes plants d’arbre. L’objectif de ce travail de thèse a été de comprendre les réponses du chêne sessile (Quercus petraea) et d’une poacée, tous deux en compétition dans un contexte de modification de la disponibilité des ressources. Deux espèces de poacées ont été étudiées, la molinie bleue (Molinia caerulea) et la canche cespiteuse (Deschampsia cespitosa). L’accent a été mis sur le rôle des interactions entre différentes ressources (lumière, eau et azote inorganique) sur l’évolution de la compétition (intensité/importance) entre ces espèces et les mécanismes écophysiologiques sous-jacents. Grâce à des expérimentations en conditions semi-contrôlées et à une installation in situ, nous avons pu mettre en évidence une compétition très précoce, dès les premiers mois d’interaction entre le chêne et les poacées voisines. L’abondance de lumière conduit à une compétition plus forte des poacées sur le chêne, amplifiée par l’apport d’azote. Par ailleurs, la nature et l’ampleur de ces interactions varient selon le niveau de stress abiotique appliqué et selon les organes considérés. Nos résultats montrent aussi que le chêne réagit principalement en accumulant les ressources dans son système racinaire, ressources qui sont mobilisées l’année suivante et qui peuvent avoir un arrière effet positif sur le fonctionnement du chêne en absence de stress hydrique. Enfin de la facilitation a également été observée du chêne envers la canche cespiteuse suite à un apport d’azote. Ce dernier améliore la croissance du chêne en compétition, qui pourrait augmenter sa production d’exsudats et son turn-over racinaire au bénéfice de la canche qui valoriserait cette nouvelle source d’azote. Ce travail renforce l’idée d’intégrer l’effet des interactions des différents facteurs abiotiques dans les modèles de compétitions et dans les pratiques de régénération afin d’optimiser la coexistence des espèces forestières, et ce dès la mise en concurrence des jeunes arbres avec les poacées du sous-bois. / Temperate forest ecosystems are prone to regeneration failures because of strong competition between understorey species and tree seedlings. This thesis aimed to improve our understanding of sessile oak seedlings (Quercus petraea) and poacea responses, both in competition among different levels of resource availabilities. Two poacea species were studied, Molinia caerulea and Deschampisa cespitosa. We focused on the role of the different resource combinations (light, water and inorganic nitrogen) on interaction variation (intensity and importance) between those species and underlying ecophysiological mechanisms. Our greenhouse and field experiments allowed us to infer a very early competition, from the first months of interaction between oak seedlings and poacea neighbours. High light level leads to stronger competition from poacea on oak seedlings, increased by nitrogen supply. Secondly nature and extent of these interactions depend on applied abiotic stress level and on considered organs. Thirdly Oak seedlings mainly respond by accumulating resources in coarse roots. These resources are remobilized next year and may have a positive carry-over effect on oak functioning if there is no water stress. Eventually we observed facilitation as well, from oak on D. cespitosa in fertilized environment. Nitrogen supply would foster oak seedling growth, increasing exudate production and root turn-over, to the benefit of D . cespitosa. The poacea would take up this extra nitrogen source for its own development. This study support the idea of including interaction effects of different abiotic factors in competition models. Silvicultural practices would also be enhanced by optimizing species coexistence in temperate forests as soon as tree seedlings and understorey species start to grow together.

Azote inorganique

Compétition

Deschampsia cespitosa

Facilitation

Interactions biotiques et abiotiques

Lumière

Molinia caerulea

Photosynthèse

Quercus petraea

Réserves azotées

Biotic and abiotic interactions

Competition

Deschampsia cespitosa

Facilitation

Inorganic nitrogen

Light

Molinia caerulea

Nitrogen storage

Photosynthesis

Quercus petraea

Contribution relative de la végétation du sous-bois dans la consommation en eau des placettes forestières soumises aux changements de climat et de pratiques / Contribution of understorey vegetation to forest water consumption in stand under climate change and new practices

Gobin, Rémy

08 December 2014

Avec l'augmentation des sécheresses dans les forêts tempérées, la gestion sylvicole envisage de réduire la densité des peuplements adultes pour limiter le déficit hydrique. Cependant, la réduction de la canopée arborée augmente le rayonnement dans le sous-bois et permet le développement de la strate herbacée monopoliste. Nos objectifs étaient de caractériser l'évapotranspiration (ETu) de 4 herbacées monopolistes (Molinia caerulea, Calluna vulgaris, Pteridium aquilinum and Rubus sp.) et de quantifier leur impact sur la teneur en eau du sol (SWC) dans des peuplements de Quercus petraea. L’ETu des quatre herbacées cultivées en pot a été quantifiée en conditions semi-contrôlées caractérisées par deux niveaux d’éclairement relatif et 3 niveaux de SWC. In situ, le SWC, le microclimat et l’ETu de P. aquilinum et M. caerulea ont été mesurés sur 20 dispositifs dans les peuplements forestiers de Q. petraea présentant un gradient croissant de LAI. Chaque dispositif était subdivisé en 2 placettes, l’une était désherbée et l'autre enherbée. M. caerulea et C. vulgaris ont une faible régulation de leur ETu alors que P. aquilinum et Rubus sp. ont une stratégie conservatrice face au stress hydrique. SWC diminue plus rapidement quand le LAI de la strate herbacée augmente, ce qui est directement lié à l’ouverture du couvert arboré avec une valeur seuil de LAI de la strate arborée à 2-3, sous laquelle la contribution de la strate herbacée à l’évapotranspiration du peuplement pourrait compenser la diminution de celle de la strate arborée.Ces résultats montrent la nécessité de considérer la végétation du sous-bois dans la gestion sylvicole notamment lorsque la ressource hydrique est limitante. Ainsi, la réduction de la densité de la strate arborée doit être un compromis entre la réduction de la surface foliaire des arbres pour réduire l’ET, et le maintien d’une densité suffisante de la strate arborée pour limiter la croissance et l'ETu de la végétation du sous-bois. / In the context of ongoing increase of drought in temperate forests, forest managers consider the reduction of stand density to limit soil water depletion. The reduction of tree canopy density increases light below canopy and allows the development of monopolistic understorey vegetation. Our objectives were to characterize the evapotranspiration (ETu) of common understorey plants (Molinia caerulea, Calluna vulgaris, Pteridium aquilinum and Rubus sp.) and to quantify their impacts on soil water content (SWC) in mature oak stands (Quercus petraea).A first experiment was set up in a greenhouse where the 4 understorey species were potted and subjected to 2 levels of light transmittance and 3 levels of SWC. Microclimate and ETu were monitored. A second experiment was carried out on 20 plots (10 with M. caerulea and 10 with P. aquilinum) in oak stands with contrasted LAI. On each plot, two circular areas were set up, one weeded and the other untouched. SWC, microclimate and ETu were monitored.M. caerulea and C. vulgaris are more water spenders, whereas P. aquilinum and Rubus sp. are more water savers under water stress. Soil water depletion was faster with increasing understorey vegetation LAI, which was directly linked to tree canopy opening with a threshold of tree LAI of 2-3 below which the understorey contribution could offset the reduction of tree ET. The experimentations showed that the relative contribution of understory vegetation in the ecosystem water balance is significant, and depends on SWC and on the understorey species identity. These results show the necessity to consider understorey vegetation in forest management when water availability is an issue. Lower tree canopy density could increase the understorey ETu and soil water stress for trees. From a management perspective, thinning should be designed as a compromise between the reduction of tree leaf area to reduce ET, and maintaining sufficient tree canopy to restrict the growth and ETu of understorey vegetation.

Evapotranspiration

Végétation du sous-bois

Surface foliaire

Microclimat

Changement climatique

Molinia caerulea

Calluna vulgaris

Pteridium aquilinum

Rubus sp.

Quercus petraea

Evapotranspiration

Understorey vegetation

Leaf area index

Microclimate

Climate change

Molinia caerulea

Calluna vulgaris

Pteridium aquilinum

Rubus sp.

Quercus petraea

577.3

Laboratorní spektroskopie pro vybrané druhy vegetace z krkonošské tundry / Laboratory spectroscopy for selected Krkonoše Mts. tundra vegetation species

Tomcová, Jana

January 2019

Laboratory spectroscopy for selected Krkonoše Mts. tundra vegetation species The diploma thesis is focused on testing the methodologies of measuring the reflectance of grasses from the tundra of Krkonoše Mountains (Nardus stricta, Molinia caerulea, Calamagrostis villosa). The spectoradiometer ASD FieldSpec 4 Wide-Res with added contact probe ASD Plant Probe is used for measurements. Since it is not common to measure such narrow leaves that do not cover the whole FOV, the thesis is looking for methodologies that are the most repeatable and influenced by a minimum of errors. Factors influencing the measurement results are also monitored. Furthermore, the differentiation of the studied species is observed based on their spectral properties. Based on the measured data the medians and standard deviations are calculated and compared among each other. An analysis of variance (ANOVA) is used to determine the bands where the influence of individual factors is more apparent and where the individual grasses are distinguishable. As the most suitable methodologies for measuring grasses depend on the grasses structures and properties, the best methodology is different for each of selected species. The two layer leaf measurement is most suitable for the Nardus stricta, the measurement of the abaxial sides of leaves fits...