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Nitrogen enrichment of a boreal forest : implications for understory vegetation /Forsum, Åsa, January 2008 (has links) (PDF)
Diss. (sammanfattning) Umeå : Sveriges lantbruksuniv., 2008. / Härtill 4 uppsatser.
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Mezidruhové interakce v mokřadním společenstvu v závislosti na vodním režimu: dlouhodobý test stress-gradient hypotézy / Interspecific interactions in wetland communities in dependence on water regime: long-term test of stress-gradient hypothesisRůžičková, Kateřina January 2016 (has links)
The Stress-gradient hypothesis predicates a change of interspecies relations from negative to positive according to the stress gradient. The basic assumption is that the presence of one species (the facilitator) makes the growth of other species easier. In this study was determined based on the 5years experiment, whether the interspecies interactions (i.e. the importance of facilitation and competition) changes according to the hydrological conditions. Three wetland species (Calamagrostis canescens, Carex elongata and Deschampsia cespitosa) were planted in experimental pots with the presence and absence of the dominant species (Carex elata). The hydrological gradient (= the stress gradient) was simulated by three types of hydrological conditions: dry, fluctuating and wet. The success of the species within the specific conditions was correlated with the fitness-related characteristics of the plants including the biomass, the number of ramets and the height of the plants. Following hypotheses were tested: i) at a low intensity of stress (with the wet treatment), the C. elata represents a competitor for other species. On the other hand, at a high intensity of stress (with the dry treatment), the C. elata represents a facilitator, making it easier to the other coexisting species to grow. This presumption was confirmed only with the D. cespitosa, which was more successful under dry treatment with the presence of a dominant species, which facilitated it. With the other two species the change of interspecific relations was not observed and the relationships remained negative. Furthermore the results showed, that in the dry treatment with the presence of a dominant species, there was a lower intensity of competition among the coexisting species. The experiment showed, that the interactions of particular species with dominant species can vary according to the stress gradient. The hydrological gradient also influences the character and intensity of interactions among the species.
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Etude de deux modalités de phytomanagement testées sur un terrain de gestion de sédiments contaminés par des métaux et métalloïdes / Study of two phytomanagement options tested at a dredged-sediment disposal site contaminated with metals and metalloidsPhanthavongsa, Phonethip 09 April 2018 (has links)
Le phytomanagement est un mode de gestion de sites et sols pollués émergent qui inclut la valorisation de la biomasse produite. Pour alimenter les retours d’expérience en conditions réelles et sur le long terme, deux essais de phytomanagement de 1 ha chacun (sites A et B) ont été mis en place à Fresnes-sur-Escaut (Hauts-de-France) en 2011/2012 sur un terrain de gestion de sédiments de curage contaminés par des éléments potentiellement toxiques ou EPT (Cd, Cu, Pb et Zn). Dans ce contexte, les travaux de thèse réalisés sur ces sites avaient pour objectifs d’étudier : (1) la dynamique et la performance des espèces végétales sélectionnées (Deschampsia cespitosa, peupliers Skado et I-214, saule Tordis et Inger), des plantes colonisatrices et envahissantes, (2) l’effet des amendements (inoculum de champignons mycorhiziens, amendement minéral basique) sur la mobilité des EPT dans le sol, sur l’accumulation des EPT dans les parties aériennes des plantes et impact sur la diversité microbienne des sols et des racines ligneuses.L’efficacité de l’espèce herbacée D. cespitosa pour le phytomanagement du site B a été démontrée. Tolérante aux conditions du site, cette plante a présenté de faibles concentrations en Cd, Cu et Pb dans ses parties aériennes et a formé un couvert dense et pérenne. La végétalisation du site A par des plantes colonisatrices était hétérogène avec une dominance de l’espèce Urtica dioïca.Sur les parcelles amendées et non amendées, les concentrations mesurées chez U. dioïca étaient plus élevées en Cd, Pb, Cu et Zn comparées aux mêmes plantes issues de sols non contaminés. Selon les calculs préliminaires de risques basés sur les concentrations mesurées dans les plantes herbacées enrichies en Cd et Zn, les risques liés à leur ingestion par les herbivores se sont avérés négligeables.Concernant les saules et les peupliers dédiés à la production d’énergie, de fortes concentrations en Cd et en Zn ont été mesurées dans les feuilles quels que soient les amendements. Ces feuilles peuvent représenter un risque pour les herbivores. Contrairement aux peupliers très tolérants aux conditions du milieu, une réduction de la croissance et du taux de survie des saules a été mesurée sur les parcelles amendées et non amendées en présence de D. cespitosa, liée à une forte compétition souterraine avec D. cespitosa. L’utilisation de tests écotoxicologiques a permis d’identifier d’autres facteurs dont la phytotoxicité du sol. Par ailleurs, aucun effet des amendements biologiques et chimiques n’a été observé sur la mobilité et la spéciation des EPT après 4 ou 5 années de phytomanagement. Leur effet sur le transfert des EPT était très variable en fonction des espèces, des niveaux de pollution et du temps. L’étude des communautés microbiennes dans les racines ligneuses a révélé un impact de la végétation herbacée et de la pollution mais aucun effet lié aux amendements n’a été observé. / Phytomanagement is an emerging approach that includes plant biomass valorization for the management of polluted soils and sites. To evaluate the long-term performance of this strategy at field scale, two phytomanaged sites of 1 ha each (sites A and B) were implanted in Fresnes-sur-Escaut (Hauts-de-France) in 2011/2012 at a dredged-sediment disposal site contaminated with potentially toxic elements or PTE (Cd, Cu, Pb et Zn). The thesis work is based on the study of the two sites with the following objectives: (1) study the dynamics of selected plants (Deschampsia cespitosa, Skado and I-214 poplars, Tordis and Inger willows), colonizing plants and invaders, (2) study the efficiency of amendments (mycorrhizal fungi inoculum, basic mineral amendment) on sediment PTE mobility, on aerial plant parts PTE accumulation and on the microbial diversity in soils and tree roots.The efficiency of the grass D. cespitosa for phytomanagement at the site B has been highlighted. The plant was tolerant to the site conditions, had low concentrations of Cd, Cu and Pb in shoots and formed a dense and perennial plant cover. At the site A, the herbaceous plant cover formed by plant colonists was heterogenous with a dominance of the species Urtica dioïca.In amended and non-amended plots, U. dioïca showed higher concentrations of Cd, Cu, Pb and Zn than the same plants from uncontaminated soils. According to risk calculations based on Cd and Zn concentrations, there was no risk related to the ingestion of these herbaceous plants by herbivorous animals. Concerning poplars and willows dedicated to energy production, high Cd and Zn concentrations were found in their leaves regardless of the amendments. These leaves may pose a risk for herbivorous animals. Unlike poplars which were very tolerant to the site conditions, willows showed a reduction of growth and survival rate in the amended and non-amended plots sown with D. cespitosa, because of belowground competition with D. cespitosa. Ecotoxicological tests revealed that soil phytotoxicity was also responsible of the willow growth reduction. Besides, the biological and chemical amendments had no significant effect on PTE mobility and speciation in soils after 4 or 5 years of phytomanagement. Their effects on PTE transfers in plants varied depending on the species, levels of pollution and time. The study of microbial communities in tree roots revealed that the herbaceous cover and soil pollution had a significant impact on microbial composition whereas the amendments did not affect the microbial communities.
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Dynamics of root-associated fungal communities in relation to disturbance in boreal and subarctic forestsHuusko, K. (Karoliina) 06 February 2018 (has links)
Abstract
Disturbance may shift microbial communities from one state to another. However, species differ in their ecological characteristics and their abilities to withstand disturbance. No single species or individuals of a species exist alone, but they are parts of complex interaction networks including species above- and belowground. In boreal and subarctic forests, almost all plants and a high number of fungi form mycorrhizas at the plant roots. In mycorrhiza, the fungal partner harvests nutrients for the host plant and, in return, gains carbon from the plant. In general, these common associations benefit both partners, but as heterotrophs, fungi are dependent on carbon photosynthesized by plants, whereas plants can survive alone as autotrophs. In addition to mycorrhizal fungi, also other fungi, such as endophytes, saprotrophs and pathogens, live in and on plant roots.
This thesis concerns the impacts of disturbance on fungi living in plant roots and in soil near the roots. I hypothesized that i) root-associated fungal (RAF) and soil fungal communities and colonization types change after disturbance, that ii) the observed shifts relate to disturbance intensity and that iii) they co-occur with changes in soil conditions and vegetation. Changes in RAF were studied as changes in root fungal colonization, or in fungal community composition. The latter were detected with next-generation sequencing methods.
The responses of RAF to disturbance seemed to be context dependent and related to sources of fungal communities (e.g. soil, RAF networks), environmental conditions (e.g. soil pH and nutrients) and host performance. It seems that abundances of those RAF species, which are present in the roots first (priority effect), may be increased by disturbance. Research produced new information related to ecological roles of the genera Phialocephala and Meliniomyces. Altogether, the results indicate connections between both abiotic and biotic environments and RAF, and host species viability and RAF. / Tiivistelmä
Häiriöt voivat siirtää eliöyhteisön tilasta toiseen. Lajien ominaisuudet ja häiriönsietokyvyt eroavat toisistaan. Mikään laji tai yksilö ei elä yksin, vaan lajit ovat osa maan ylä- ja alapuolelle ulottuvia monimutkaisia vuorovaikutusverkostoja. Boreaalisissa ja subarktisissa metsissä lähes kaikki kasvit ja useat sienet muodostavat sienijuuren eli mykorritsan. Mykorritsassa sieniosakas hankkii isäntäkasville ravinteita ja saa vastavuoroisesti kasvilta hiiltä. Tavallisesti nämä vuorovaikutussuhteet hyödyttävät molempia sienijuuren osakkaita, mutta toisenvaraisina (heterotrofeina) sienet ovat riippuvaisia kasvien yhteyttämästä hiilestä, kun taas tuottajina (autotrofeina) kasvit voivat elää itsenäisesti. Mykorritsasienten lisäksi kasvien juurissa elää yleisesti myös muita sieniä kuten endofyyttejä, saprotrofeja ja patogeeneja.
Tämä väitöskirja käsittelee häiriön vaikutuksia sieniin, jotka elävät kasvien juurissa ja juuria ympäröivässä maassa. Hypoteesieni mukaan i) juurissa ja maassa elävien sienten yhteisöt ja kolonisaatiotyypit muuttuvat häiriön jälkeen, ii) muutokset liittyvät häiriön voimakkuuteen ja iii) muutokset tapahtuvat samanaikaisesti maan olosuhteiden ja kasvillisuuden muutoksien kanssa. Juurissa elävien sienten esiintymisen muutokset tutkittiin sienten kolonisaation tai yhteisörakenteen muutoksina. Sieniyhteisöt selvitettiin NGS-menetelmien avulla.
Juurissa elävien sienten vasteet häiriöön vaikuttavat olevan tilannesidonnaisia ja liittyvän sienilajien lähteisiin (esim. maa, juurisieniverkostot), ympäristömuuttujiin (esim. maan pH, ravinteet) ja isäntäkasvin menestymiseen. Häiriö voi vahvistaa juurissa ensimmäisenä läsnä olevien sienilajien menestymistä (prioriteettivaikutus). Uutta tietoa tuotettiin Phialocephala ja Meliniomyces –sienisukujen ekologiasta, jota tunnetaan huonosti. Kaiken kaikkiaan, tulokset osoittavat yhteydet sekä elottoman ja elollisen ympäristön ja juurten sieniyhteisön että isäntäkasvin elinkyvyn ja juurten sieniyhteisön välillä.
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A Evaluation of Deschampsia caespitosa (L.) Beauv Populations for Metal Tolerances and Ecotypic Variation at Climax, ColoradoPratt, Paul Ellsworth 01 May 1982 (has links)
Four populations of Deschampsia caespitosa (L.) Beauv (a Poaceae species), growing on disturbed and undisturbed sites at Climax, Colorado, were examined for metal tolerances (Zn, Cu, Pb, Al). Root growth assessments on parent plant and offspring material for each population were conducted using nutrient solutions containing elevated levels of Zn, Cu, Pb, or Al. Seed germination and seedling survival tests for each population were conducted on both alpine topsoil and mine spoil material.
Evidence is presented that supports the hypothesis that ecotypic variation exists within Deschampsia caespitosa and that this variation has allowed certain Deschampsia populations to become successfully established on alpine mine spoils. Acid mine spoil populations showed significantly less root growth retardation in the presence of zinc, copper or aluminum.
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Regeneration methods to reduce pine weevil damage to conifer seedlings /Petersson, Magnus, January 2004 (has links) (PDF)
Diss. (sammanfattning). Uppsala : Sveriges lantbruksuniversitet, 2004. / Härtill 4 uppsatser.
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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 regenerationVernay, Antoine 04 December 2017 (has links)
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.
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The use of microbial and organic amendments in the revegetation of smelter-affected soils near Flin Flon, MB2013 May 1900 (has links)
The boreal forest area around Flin Flon, MB, and Creighton, SK, has been the site of a metal mining and smelting complex since the 1930s. Smelter emissions, coupled with forest logging, forest fires, and subsequent soil erosion, have led to severe vegetation dieback and the development of soils containing a mixture of metals in varying concentrations. In affected areas, existing vegetation typically is stunted. Limestone applications to affected soils have served to increase pH and, in some instances, the vegetation has responded positively; however, in some areas limestone application has failed to restore vegetation, leading to an interest in examining the suitability of other soil amendments to affect revegetation in these areas. Typically revegetation programs focus on aboveground vegetation responses; however, healthy plant growth often is dependent on the presence of an equally healthy soil microbial community. Thus, this study attempted to link revegetation success with responses of the soil microbial community structure to various soil amendments.
Two studies were conducted to determine the influence of soil amendments (biochar, municipal and manure compost, glauconite, and an arbuscular mycorrhizal/ectomycorrhizal inoculant) on plant growth and microbial community structure in two soils from the Flin Flon area, classified as containing high and low metal concentrations. The two studies evaluated the growth of boreal forest understory species American vetch (Vicia americana) and tufted hairgrass (Deschampsia caespitosa) and overstory species jack pine (Pinus banksiana) and trembling aspen (Populus tremuloides) after addition of soil amendments, and the subsequent effects on microbial community structure. Greenhouse experiments evaluated plant growth for a period of 8 weeks (understory species) or 19 weeks (overstory species), after which plants were analyzed for changes in biomass and metal accumulation in plant tissue. Soils were analyzed for available metal concentrations, as well as microbial biomass carbon and nitrogen, and phospholipid fatty acid concentration, which is a measure of microbial community structure. Significant effects were seen on plant growth and microbial community structure due to the metal concentrations in the soil, but no one amendment consistently impacted plant growth or metal uptake, or any measured microbial parameter. The results of this study indicate the variability of plant growth and microbial functioning in soils from the study site, as well as the inherent challenges associated with revegetating heavy metal affected soils, and underline the need for further research on plant growth and microbial community structure at this site.
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Nitrogen, parasites and plants : key interactions in boreal forest ecosystemsStrengbom, Joachim January 2002 (has links)
In the work described in this thesis I studied how increases in nitrogen (N) inputs may affect plant community structure in boreal forest understorey vegetation. These phenomena were investigated in N fertilization experiments and along a national N deposition gradient. After five years of N additions, large changes in understorey vegetation composition were observed in the fertilization study. In plots that received 50 kg N ha'1 year"1 (N2), the abundance of the dominant species, Vaccinium myrtillus, decreased on average by 32 %. No decrease was observed in control plots during the same period. In contrast, the grass Deschampsia flexuosa responded positively to increased N input, being on average more than five times as abundant in the N2 treatments as in controls. Also an increase was seen in the incidence of disease caused by the parasitic fungus Valdensia heterodoxa on leaves of V. myrtillus following N additions. The parasite was on average nearly twice as abundant in N2 plots than in control plots. This could be explained by increased N concentrations in host plant tissue. Disease incidence also increased following experimental additions of glutamine to leaf surfaces of V. myrtillus, suggesting a causal connection between plant N concentration and performance of the fungus. The parasite also played a key role in the observed changes in understorey species composition. D. flexuosa was more abundant in patches in which V. myrtillus was severely affected by V heterodoxa. This suggests that V heterodoxa mediates the increased abundance of D. flexuosa following increased N additions. The fungus mediates changes in the composition of understorey vegetation mainly by increasing light availability via premature leaf loss of V. myrtillus. The incidence of disease due to the parasite was on average higher in large than in smaller N-treated plots, indicating that the response to N fertilization is spatially scale dependent. This shows that using small plot sizes in experiments that simulate changed environmental conditions may be problematic, as important interactions may be underestimated. Comparison of the occurrence of understorey species between regions with different rates of N deposition revealed that the occurrence of the two dwarf shrubs V. myrtillus and V. vitis- idaea was lower in regions with high N deposition compared to regions with low deposition. The opposite pattern was found for V heterodoxa. This is consistent with expectations from N fertilization experiments. For D. flexuosa no differences in occurrence were found between the different regions investigated. The effects on vegetation and mycorrhizal fungi observed following N additions were also found to be long lasting. Nine years after termination of the fertilization, no signs of recovery were detected, and nearly 50 years after termination characteristic signs of N fertilization were found among bryophytes and mycorrhizal fungi. This suggests that the time needed for re-establishment of the original biota following N-induced changes may be substantial. / <p>Diss. (sammanfattning) Umeå : Umeå universitet, 2002, härtill 5 uppsatser</p> / digitalisering@umu
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Přispívá vodní stres a mezidruhová konkurence k funkční konvergenci nebo divergenci vlastností mokřadních rostlin? / Does water stress and interspecific competition contribute to the functional divergence or convergence of wetland plant species?Műnichová, Radka January 2017 (has links)
This diploma thesis is based on the experiment which took 5 years. In 52 plastic containers were planted four species wetland plants; two species of grasses (Calamagrostis canescens and Deschampsia cespitosa) and two species of sedges (Carex elata and Carex elongata). Three types of water regime were set up with: high, low and fluctuating water level, where the high and low level of water took turns after one year. One year before the data collection the strongest competitor Carex elata was cut out. For the evaluation of the role of water level (environmental stress) and removal of the dominant (competition) we selected two functional trait indicators: specific leaf area (SLA) and leaf dry matter content (LDMC). SLA is an indicator of resource strategies, competitiveness and efficiency of light photosynthesis. Species with high SLA are usually better competitors for light, but tolerate harder the environmental stress. LDMC reflects a plants investment in persistent leaf structures and therefore in nutrient retention. A significant effect of water regime on LDMC was observed in the species Deschampsia cespitosa that had higher average values of LDMC in dry water regime, which is indicating higher investment into persistent leaf structures. And the effect of the dominant removal on SLA, where the values of SLA in the containers without removed dominant were higher. Increased SLA implies increased intensity of competition for light. My diploma thesis supported that specific leaf area and leafdry matter content are important functional indicators different types of stress conditions in wetland communities.
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