Global ETD Search

31	Culture de l'alpiste roseau et du panic érigé sur un sol contaminé en éléments traces métalliques Farrier, Léa 02 February 2024 (has links) Les éléments traces métalliques (ETM) constituent le deuxième contaminant en importance juste derrière les hydrocarbures et représentent respectivement 34 % des sites contaminés au Canada et 46 % au Québec. L'objectif de cette étude est de déterminer l'effet de la contamination du sol par le Cu, le Zn et le Pb sur les cultures d'alpiste roseau (Phalaris arundinacea L.) et de panic érigé (Panicum virgatum L.). À partir de 56 points d'échantillonnage suivis annuellement, des zones contaminées ZC (n=21) et non contaminées ZNC (n=35) ont été attribuées. De 2016 à 2018, l'échantillonnage de la biomasse aérienne des plantes et du sol a permis d'évaluer l'effet de la présence d'ETM sur le rendement des cultures et d'évaluer la relation entre les concentrations des trois ETM dans le sol et dans la biomasse aérienne. Les rendements varient entre 1,9 et 2,7 T ha⁻¹ pour l'alpiste et 3,2 et 6,8 T ha⁻¹ pour le panic. Aucune différence significative de rendement n'a été observée entre les deux zones, excepté pour le panic en 2016 où celui-ci est plus élevé de 1,5 T ha⁻¹ dans la ZC. Pour les deux cultures, les concentrations de Cu sont similaires entre les zones. Pour le Zn et le Pb, les concentrations sont plus élevées dans la ZC que dans la ZNC. En général, les corrélations entre les concentrations d'ETM dans la plante et dans le sol sont très faibles. Les concentrations totales d'ETM dans le sol, les concentrations extraites au Mehlich-3 et au DTPA-TEA-CaCl₂ (pH 7,3) sont fortement corrélées entre elles. La culture des deux espèces sur un sol contaminé étant possible, les résultats de cette étude sont prometteurs. De plus, puisque le prélèvement diffère selon l'ETM, il serait intéressant d'avoir davantage de données pour des sols contaminés et pour ces espèces végétales à titre de comparaison. / Trace metal elements (TME) are the second most important contaminant just after hydrocarbons. They represent 34% of contaminated sites in Canada and 46% in Quebec, respectively. The objective of this study was to determine the effect of soil contamination by Cu, Zn and Pb on switchgrass and reed canarygrass crops. From 56 sampling points, contaminated (CZ, n = 21) and uncontaminated zones (UCZ, n = 35) were assigned. From 2016 to 2018, multiple sampling of above-ground biomass plant and soil properties was performed to assess the effect of the presence of TME on crops yield and to determine whether the uptake differs according to plant species. Yields varied between 3.2 and 6.8 T ha⁻¹ for switchgrass and 1.9 and 2.7 T ha⁻¹ for reed canarygrass. No significant differences in yield were observed between the two zones, except for switchgrass in 2016 where it was 1.5 T ha⁻¹ higher in the CZ. For both crops, Cu concentrations were similar between the two zones. For Zn and Pb, they were higher in the CZ than in the UCZ. Total soil metal concentrations generally decreased from 2016. Correlations between TME concentrations in plant and total concentrations in soil are weak. Total TME soil concentrations, Mehlich-3 and DTPA-TEA-CaCl₂ (pH 7,3) extracted concentrations are strongly correlated with each other. We conclude that the cultivation of those two crops on metal-contaminated soils is possible without significant crop yield loss compared to uncontaminated soils. Since the uptake differed among the TME, additional studies are needed to conclude that contaminated sites with TME can be use to cultivate switchgrass and reed canarygrass as plant biomass for energy purposes.
32	Le cycle de l'azote de marais filtrants artificiels : potentiel d'émission de gaz à effet de serre (GES) et exportation de formes azotées Maltais-Landry, Gabriel January 2008 (has links) Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal. Substance flow construted wetlands Phragmites australis Phragmites australis Typha angustifolia Typha angustifolia Phalaris aundinacea Phalaris aundinacea Aération artificielle Artificial aeration Saison Season Nitrogen Greenhouse gases
33	Le cycle de l'azote de marais filtrants artificiels : potentiel d'émission de gaz à effet de serre (GES) et exportation de formes azotées Maltais-Landry, Gabriel January 2008 (has links) Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal Substance flow construted wetlands Phragmites australis Phragmites australis Typha angustifolia Typha angustifolia Phalaris aundinacea Phalaris aundinacea Aération artificielle Artificial aeration Saison Season Nitrogen Greenhouse gases
34	Analysis and simulation of systems for delivery of fuel straw to district heating plants / Nilsson, Daniel, January 1900 (has links) (PDF) Diss. (sammanfattning) Uppsala : Sveriges lantbruksuniv. / Härtill 6 uppsatser.
35	Effet de l'aération d'appoint, de la saison et de l'espèce de macrophytes dans le traitement d'un effluent piscicole par marais artificiel Ouellet-Plamondon, Claudiane January 2004 (has links) No description available. Eaux usées Pisciculture Aération d'appoint Saison Phragmites australis Typha angustifolia Phalaris arundinacea Calamagrostis canadensis
36	Fire, Soil, Native Species and Control of <em>Phalaris arundinacea</em> in a Wetland Recovery Project. Foster, Richard Douglas 01 May 2003 (has links) (PDF) Southern Appalachian Phalaris arundinacea control was investigated by: 1) correlating cover and species richness with soil characteristics across transects; 2) burning and herbicide use to determine conditions facilitating native plant establishment; and 3) hemi-parasitic Pedicularis lanceolata tested as a biological control. Phalaris cover was correlated with subsoil consolidation; areas without Phalaris had consolidated subsoil while Phalaris at >50% cover established on loose soil. Phalaris cover inhibited species richness (r2=0.78). No soil characteristic predicted species richness. Herbicide reduced Phalaris cover and aerial biomass by 23% and 63% respectively, compared to controls. Burning was ineffective. Two summers after herbicide Phalaris subterranean biomass remained 32% less than control biomass. Monocot transplants established readily following herbicide but dicot transplants were less likely to survive. Pedicularis parasitized Phalaris. Pedicularis’ effect on a mixed species total (r2=0.735) was non-linear; implying greater effect on large plants. Non-parasitic native plant species competition reduced biomass of Phalaris by 40%. wetland restoration biological control invasive species Pedicularis lanceolata Phalaris arundinacea soil conditions controlled burn hemiparasitism Biology Life Sciences
37	Phyto-aménagement de tourbières résiduelles : effet du chaulage et de la fertilisation sur la croissance du saule et de l'alpiste roseau et sur la répartition chimique de métaux lourds dans les sols et les plantes Sall, Papa Malick 28 September 2018 (has links) L’objectif général de l’étude est de valoriser deux sites de tourbières résiduelles situés à Lamèque et à La Mousse Acadienne (Nouveau-Brunswick, Canada) pour la production de deux plantes à valeur énergétique, le saule (Salix miyabeana) et l’alpiste roseau (Phalaris arundinacea). Cette réhabilitation est nommée «phyto-aménagement». Par ailleurs, dans un contexte de changements climatiques et d’épuisement des énergies fossiles, le phytoaménagement à base de plantes bioénergétiques présente un intérêt avec l'utilisation de la biomasse agroforestière comme combustible à moindre émission dans les chaudières à biomasse. Les résultats des essais menés en serre sur le sol de la tourbière résiduelle du site Sun Gro indiquent que les doses croissantes de chaux calcique en présence d’une dose d’engrais NPK, ainsi que les doses croissantes d’engrais en présence d’une dose de chaux dolomitique ont un effet significatif sur les paramètres de croissance et de rendements du saule, certaines propriétés édaphiques dont le pH, et les teneurs des métaux Cu, Fe, Mn et Zn sous formes facilement labiles et moyennement labiles dans le sol. Une fraction importante de Cu est liée à la matière organique du sol. Les métaux Fe, Mn et Zn se retrouvent majoritairement fixés par les oxydes du sol. Les essais à petite échelle de saule et d’alpiste roseau cultivés dans les tourbières résiduelles du site La Mousse Acadienne indiquent que ces deux plantes répondent bien à la fertilisation minérale en présence de la chaux dolomitique. En favorisant le développement de la plante, l’apport de l’engrais (NPK) favorise la production de biomasses aériennes ainsi que le prélèvement des cations nutritifs. Les parcelles de saules fertilisées ont fourni un rendement maximum de 6161,6 kg/ha en 16 mois de croissance au moment où les parcelles non fertilisées ont assuré un rendement maximum de 437,0 kg/ha. D’une manière générale, les concentrations des métaux Ca, Mg et Mn sont retrouvées majoritairement dans les parties aériennes des plantes tandis que celles des métaux Al, Cd, Cu, Fe, et Zn sont plus élevées dans les racines. Les concentrations des éléments traces métalliques dans les parties aériennes des plantes sont en deçà des valeurs seuils de toxicité. Les résultats révèlent que le pH du sol est une propriété chimique clé à considérer lors du phyto-aménagement des tourbières résiduelles acides. / The mechanical exploitation of the natural peat bogs produces media called "residual peat bogs" among which the physico-chemical properties, naturally constraining, are degraded. The objective of this study was to evaluate the potential productivity of two energy crops, willow (Salix miyabeana) and the reed canary grass (Phalaris arundinacea), on residual peat bogs situated at Lamèque in New Brunswick (Canada). This type of rehabilitation is named "phyto-management". Moreover, in the climate change context and the depletion of fossil fuels, bioenergy-based phytomanagement is of interest with the use of agroforestry biomass as a lower emission fuel in biomass boilers. The results of glasshouse study conducted on RPB from the site Sun Gro indicated that N-P-K fertilizer and calcitic or dolomitic lime applications have a significant effect on growth and yield parameters of willow as well as on certain edaphic properties such as pH and the content of metallic trace elements (Cu, Fe, Mn, Zn) in the labile and moderately labile fractions. Organic matter matrix is an important binding site for Cu whereas oxide matrix for Fe, Mn and Zn. The small-scale field trials conducted at the Mousse Cannadienne site highlighted that willow and reed canary grass can be grown in the residual peat bogs amended with dolomitic lime and fertlized with complete fertlizer. Fertilizer containing the chemical elements improves growth, uptake of cationic nutrients and productiveness of plants. The fertilized and limed willow plots produced a maximum yield up to 6161.6 kg / ha in 16 months of growth. The limed plots without fertilizer produced 437,0 kg shoot biomass of willow / ha. Generally, the highest concentration of Ca, Mg and Mn is mainly found in the aerial parts of plants whereas those of Al, Cd, Cu, Fe, and Zn are highest in roots. The concentrations of metallic trace elements in shoot plant biomass are below thresholds values of toxicity. The results reveal that the soil pH is a key chemical property to be considered during the phyto-management of acid residual peat bogs. S 405 UL 2018 Tourbières -- Réhabilitation Sols -- Chaulage Éléments traces métalliques Phytorestauration
38	Enhancing herbicide efficacy on reed canary grass <i>(Phalaris arundinacea)</i> by testing a plant growth hormone, application times, and herbicide type Fong, Denise Lynn 28 May 2013 (has links) No description available. Biology Ecology Environmental Science Plant Biology Plant Sciences Phalaris arundinacea Reed Canary Grass enhancing herbicide efficacy kinetin plant growth hormone fluazifop-p-butyl glyphosate invasive species control
39	Long-term Responses of Phalaris arundinacea and Columbia River Bottomland Vegetation to Managed Flooding Farrelly, Tina Schantz 01 January 2012 (has links) I sought to determine the effect of managed flooding on Phalaris arundinacea L. and other plant species distributions in a large wetland complex, Smith and Bybee Wetlands (SBW), in northwestern Oregon. Altered hydrology has reduced historically high spring flow and prematurely initiated the historic summer drying period at SBW. This alteration has increased the coverage of invasive plants (e.g., P. arundinacea) causing a decrease in native plant cover and thus degrading ecological functions. SBW managers installed a water control structure (WCS) between SBW and the Columbia Slough/River system to impound winter rainfall and thus approximate the ecological benefits that natural flooding provided as well as reduce the abundance of P. arundinacea. Prior researchers conducted intensive vegetation and hydrological monitoring in 2003 (during the season immediately before WCS installation) and 2004. I conducted similar analysis in the fifth and sixth years, 2008 and 2009, following establishment of the WCS. Both study years, I determined percent cover of all vegetation on transects established in 2003. The results, including 2004, as well as 2008 and 2009 showed a reduced cover of P. arundinacea in areas experiencing at least 0.6 meters of inundation and an increased cover of native plant communities when compared to the 2003 baseline data. Native Carex aperta Boott. cover increased 7-fold from 0.3% to 2.3%; Polygonum species cover increased from 20.0% to 52.6%; and Salix lucida Muhl. ssp. lasiandra (Benth.) E. Murray cover increased from 10.9% to 15.5% cover. P. arundinacea declined by over one-third from 44.4% to 28.1% cover following water management. Since hydrology management began, the native Polygonum species community replaced P. arundinacea as the dominant species in the emergent zone. The results of this study refined the suggested depth of inundation needed to reduce P. arundinacea cover in such lake-wetland complexes as SBW from 0.85 meters (based on 2004 study results) to 0.6 meters. Shannon Diversity decreased following water management. The findings of this study demonstrated that water management can enhance native bottomland communities, especially those comprised of obligate wetland species, and reduce P. arundinacea cover in areas experiencing at least 0.6 meters of inundation. Phalaris Polygonum Altered hydrology Reed canary grass -- Oregon -- Portland Environmental Sciences
40	A biofilter process for phytoplankton removal prior to potable water treatment works : a field and laboratory study Castro-Castellon, Ana January 2016 (has links) Phytoplankton blooms compromise the quality of freshwater ecosystems and the efficient processing of water by treatment works worldwide. This research aims to determine whether in-situ filamentous biofiltration processes mediated by living roots and synthetic filters as media can reduce or remove the phytoplankton loading (micro-algae and cyanobacteria) prior to a potable water treatment works intake. The underlying biofiltration mechanisms were investigated using field and laboratory studies. A novel macroscale biofilter with three plant species, named the "Living-Filter", installed in Farmoor II reservoir, UK, was surveyed weekly for physicochemical and biological variables under continuous flow conditions during 17 weeks. The efficiency of a mesoscale biofilter using the aquatic plant Phalaris arundinacea and synthetic filters, was tested with Microcystis aeruginosa under continuous flow conditions and in batch experiments. The 'simultaneous allelochemical method' was developed for quantifying allelochemicals from Phalaris in aqueous samples. Microscale studies were used to investigate biofilter allelochemical release in response to environmental stressors and Microcystis growth inhibition in filtered and unfiltered aqueous root exudate. Results demonstrate that the removal of phytoplankton biomass by physical mechanisms has a removal efficiency of ≤45% in the "Living-Filter" (filamentous biofilter plus synthetic fabric) and that the removal of Microcystis biomass using only biofilters was 25%. Chemical mechanisms that reduce Microcystis cell numbers are mediated by allelochemicals released from biofilter roots. Root exudate treatments on Microcystis revealed that Microcystis growth is inhibited by allelochemicals, not by nutrient competition, and that protists and invertebrates play a role in removing Microcystis. Filamentous biofilters can remove phytoplankton biomass by physical, chemical and biological mechanisms. Biofilters and synthetic filters in combination improve removal efficiency. Application of macroscale biofilters prior to potable water treatment works benefits the ecosystem. Plant properties, biofilter size to surface water ratio, and retention time must be considered to maximise the benefits of biofiltration processes.

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