Benthic bacterial production in Eastern Townships and Laurentian lakes

Sander, Bettina Christa

January 1993

The $ sp3$H thymidine incorporation (TTI) method has been frequently used to estimate benthic bacterial production rates in well oxygenated marine and river sediments, but not in the frequently more reduced lake sediments. In chapter 1, I evaluate the published sediment production literature and examine useful predictors of in situ bacterial production in mostly marine and riverine sediments. In chapters 2 and 3, I estimated and compared benthic production rates by TTI, frequency of dividing cells (FDC), the dilution method (DIL) and sediment respiration (SR) in 13 Quebec lakes to assess the reliability of the TTI based production rates. The TTI method was first calibrated, but despite keeping incubation times short and at in situ temperature, using optimal sediment volumes to saturate $ sp3$H thymidine (TdR) uptake rates, and correcting production rates for $ sp3$H-DNA recovery efficiencies, only a maximum of 10% of $ sp3$H TdR was incorporated into DNA and only extracellular isotope dilution could be accounted for (chapter 2). Most problematic, however, is the increasing presence of active bacteria unable to take up and incorporate TdR as lake sediments become more reduced (chapter 3). TTI based results are also not nearly as well correlated to environmental factors as those obtained from SR. (Abstract shortened by UMI.)

Bacterial growth.

Bacteria, Heterotrophic.

Acid deposition on coniferous foliage at high elevation site in the Laurentian Mountains

McGerrigle, David N.

January 1986

No description available.

Benthic bacterial production in Eastern Townships and Laurentian lakes

Sander, Bettina Christa

January 1993

No description available.

Bacteria, Heterotrophic.

Bacterial growth.

Long-term Effects of Impoundment on Ecosystem Functions of Coastal Wetlands in Georgian Bay

Taylor, Dallas R.

04 1900

<p>Seasonal and annual water-level fluctuation is a primary mechanism that maintains high aquatic biodiversity in coastal marshes of the Laurentian Great Lakes by preventing formation of dense mono-cultures of emergent or submergent plants. The past 14 years of sustained low water levels in Georgian Bay (Lake Huron) have prompted proposals to impound coastal wetlands as a way to mitigate against desiccation. We hypothesize that a loss of hydrological connection with the Great Lakes would lead to altered water chemistry and an expansion of emergent vegetation at the expense of aquatic habitat. This could result in a fish community with reduced diversity which may positively impact the larval amphibian community. On the other hand, bird communities may respond with only short-term gains, and may not demonstrate long-term benefits without active management. We investigate how long-term severance of hydrological connection between coastal marshes and Georgian Bay affect ecosystem functions. We compare food web components of a chain of three coastal wetlands in Tadenac Bay that were sequentially impounded by beaver activities over the past 5 decades. We also surveyed the food web of Wye Marsh, which was impounded over 80 years ago, and compare it with that of Matchedash Bay, which had never been impounded. In both cases, there were negative impacts of impoundment on water chemistry, vegetation and fish communities. Bird communities showed no significant differences but larval amphibian diversity was greater in the beaver impoundments than in the hydrologically connected coastal wetland. Based on our results, we do not recommend impounding Georgian Bay wetlands as a means to restore and maintain water levels.</p> / Master of Science (MSc)

Laurentian Great Lakes

impounded coastal wetlands

Georgian Bay

aquatic macrophytes

fish

water levels

Biology

Environmental Health and Protection

Hydrology

Biology

Acid deposition on coniferous foliage at high elevation site in the Laurentian Mountains

McGerrigle, David N.

January 1986

No description available.

The Late Proterozoic to Palaeozoic Tectonic Evolution of the Long Range Mountains in Southwestern Newfoundland

Brem, Arjan Gerben

January 2007

Ever since the first plate-tectonic model for the Appalachians was proposed, the Laurentian margin has been interpreted as having experienced a collision-related dynamo-thermal event during the Middle Ordovician Taconic orogeny. In the western Newfoundland Appalachians, evidence for this collision is well-preserved in the Dashwoods subzone. Nevertheless, rocks of the neighbouring Corner Brook Lake block (CBLB), which is located in the heart of the Laurentian realm, did not show evidence for such an event. Instead, it was affected by Early Silurian Salinic deformation and associated peak metamorphism. Even though this difference in Early Palaeozoic tectonic history between the Dashwoods and the CBLB is widely known, it has not been satisfactorily explained. To better understand the Early Palaeozoic history of the region, in particular to test and better explain the lack of a Taconic dynamo-thermal event in the CBLB, field mapping, microscopic work, and U-Pb and 40Ar/39Ar geochronological studies were undertaken in the western and northern part of the Dashwoods subzone, and in the southern part of the CBLB. In addition, the kinematic history of the Baie Verte-Brompton Line - Cabot Fault Zone (BCZ), the tectonic zone that separates the two unique tectonic fragments, was studied. The western and northern parts of the Dashwoods subzone contain variably foliated igneous units of Middle Ordovician age (ca. 460 Ma) that are associated with the regionally voluminous Notre Dame continental arc. A ca. 455 Ma conjugate set of late syn-tectonic pegmatite dykes in the BCZ demonstrates a dextral sense of shear along the BCZ (DBCZ-1) during the Late Ordovician to earliest Silurian, and constrains the minimum age of the main phase of ductile deformation in the Dashwoods subzone. The fault-bounded CBLB has been affected by a single west-vergent deformational event, constrained between ca. 434 and ca. 427 Ma. More importantly, no evidence – neither petrographic nor geochronological – is present that would indicate that the CBLB was affected by a significant Taconic dynamo-thermal event. Hence, the CBLB and Dashwoods could not have been juxtaposed until after the late Early Silurian. Furthermore, the basement to the CBLB is devoid of any Grenville (sensu lato; ca. 1.0-1.3 Ga) U-Pb ages, which is in sharp contrast with crystalline basement elsewhere in the region, such as the Long Range Inlier. Therefore, it is highly unlikely that the CBLB represents the para-autochthonous leading edge of the Laurentian craton in the Newfoundland Appalachians, as commonly accepted. The CBLB is interpreted as a suspect terrane that has moved over 500 km parallel to the strike of the orogen. Docking to the external Humber Zone is likely to have occurred during the Early Silurian. Final juxtaposition with the Dashwoods took place after the late Early Silurian (post-Salinic) as a result of protracted dextral movement along the BCZ (DBCZ-2 and DBCZ-5). Current tectonic models for the Newfoundland Appalachians mainly focus on well-documented Early Palaeozoic orthogonal convergence of various terranes with the Laurentian margin, but large-scale orogen-parallel movements have rarely been considered. The possibility of large-scale strike-slip tectonics documented here, in addition to the convergent motions, may have significant implications for the tectonic interpretation of the Early Palaeozoic evolution of the Newfoundland Appalachians.

Newfoundland Appalachians

Laurentian margin

Cabot Fault Zone

Corner Brook Lake block

Dashwoods subzone

Kinematic analyses

Geochronological analyses

Neoproterozoic

Palaeozoic

Strike-slip tectonics

Earth Sciences

The Late Proterozoic to Palaeozoic Tectonic Evolution of the Long Range Mountains in Southwestern Newfoundland

Brem, Arjan Gerben

January 2007

Ever since the first plate-tectonic model for the Appalachians was proposed, the Laurentian margin has been interpreted as having experienced a collision-related dynamo-thermal event during the Middle Ordovician Taconic orogeny. In the western Newfoundland Appalachians, evidence for this collision is well-preserved in the Dashwoods subzone. Nevertheless, rocks of the neighbouring Corner Brook Lake block (CBLB), which is located in the heart of the Laurentian realm, did not show evidence for such an event. Instead, it was affected by Early Silurian Salinic deformation and associated peak metamorphism. Even though this difference in Early Palaeozoic tectonic history between the Dashwoods and the CBLB is widely known, it has not been satisfactorily explained. To better understand the Early Palaeozoic history of the region, in particular to test and better explain the lack of a Taconic dynamo-thermal event in the CBLB, field mapping, microscopic work, and U-Pb and 40Ar/39Ar geochronological studies were undertaken in the western and northern part of the Dashwoods subzone, and in the southern part of the CBLB. In addition, the kinematic history of the Baie Verte-Brompton Line - Cabot Fault Zone (BCZ), the tectonic zone that separates the two unique tectonic fragments, was studied. The western and northern parts of the Dashwoods subzone contain variably foliated igneous units of Middle Ordovician age (ca. 460 Ma) that are associated with the regionally voluminous Notre Dame continental arc. A ca. 455 Ma conjugate set of late syn-tectonic pegmatite dykes in the BCZ demonstrates a dextral sense of shear along the BCZ (DBCZ-1) during the Late Ordovician to earliest Silurian, and constrains the minimum age of the main phase of ductile deformation in the Dashwoods subzone. The fault-bounded CBLB has been affected by a single west-vergent deformational event, constrained between ca. 434 and ca. 427 Ma. More importantly, no evidence – neither petrographic nor geochronological – is present that would indicate that the CBLB was affected by a significant Taconic dynamo-thermal event. Hence, the CBLB and Dashwoods could not have been juxtaposed until after the late Early Silurian. Furthermore, the basement to the CBLB is devoid of any Grenville (sensu lato; ca. 1.0-1.3 Ga) U-Pb ages, which is in sharp contrast with crystalline basement elsewhere in the region, such as the Long Range Inlier. Therefore, it is highly unlikely that the CBLB represents the para-autochthonous leading edge of the Laurentian craton in the Newfoundland Appalachians, as commonly accepted. The CBLB is interpreted as a suspect terrane that has moved over 500 km parallel to the strike of the orogen. Docking to the external Humber Zone is likely to have occurred during the Early Silurian. Final juxtaposition with the Dashwoods took place after the late Early Silurian (post-Salinic) as a result of protracted dextral movement along the BCZ (DBCZ-2 and DBCZ-5). Current tectonic models for the Newfoundland Appalachians mainly focus on well-documented Early Palaeozoic orthogonal convergence of various terranes with the Laurentian margin, but large-scale orogen-parallel movements have rarely been considered. The possibility of large-scale strike-slip tectonics documented here, in addition to the convergent motions, may have significant implications for the tectonic interpretation of the Early Palaeozoic evolution of the Newfoundland Appalachians.

Newfoundland Appalachians

Laurentian margin

Cabot Fault Zone

Corner Brook Lake block

Dashwoods subzone

Kinematic analyses

Geochronological analyses

Neoproterozoic

Palaeozoic

Strike-slip tectonics

Earth Sciences

POTENTIAL FIELD MODELING ACROSS THE NEODYMIUM LINE DEFINING THE PALEOPROTEROZOIC-MESOPROTEROZOIC BOUNDARY OF THE SOUTHEASTERN MARGIN OF LAURENTIA

Durham, Rachel Lauren

01 January 2017

A zone of high magnetization along the SE margin of Paleoproterozoic Laurentia in the United States is indicated by magnetic anomaly data. The SE edge corresponds to the geochemical Neodymium mantle derivation model age (TDM) boundary and the entire anomaly overlies the Paleoproterozoic Mazatzal Province. Two-dimensional gravity and magnetic models across the Nd boundary are created with Moho constrained from receiver functions with gravity, sedimentary thickness and the base of the crustal magnetization. Upper crustal magnetization does not show strong variation across this boundary and much of the strong magnetization appears to lie in the middle crust. Using magnetic modeling of several potential geologic scenarios, we estimate magnetization, depth extent, and width of this zone of high magnetization. The anomaly has variable width (~ 300 km) with amplitude of approximately 200 nT. Pre-1.55Ga Paleoproterozoic mid crustal blocks have significantly higher average effective susceptibility (0.06 SI) than those of the post-1.55Ga Mesoproterozoic (0.01 SI). In two of the three profiles, the Paleoproterozoic zone of high magnetization has the highest average susceptibility indicating the Mazatzal province is innately highly magnetic. The zone may have formed either by magmatism associated with westward subduction or from highly magnetic terranes wedging between accreting island arcs.

Geophysics

Two-Dimensional Potential Field Modeling

Forward Modeling

Geology

Geophysics and Seismology

Tectonics and Structure

Identification, enumeration, and diversity of ammonia-oxidizing archaea in the Laurentian Great Lakes

Mukherjee, Maitreyee

29 July 2013

No description available.

Aquatic Sciences

Biology

Ecology

Freshwater Ecology

Environmental Science

Microbiology

Molecular Biology

Microbial Ecology

Laurentian Great Lakes

Ammonia oxidizing Archaea

Fluorescence in situ Hybridization

environmental microbiology

Une tradition technologique régionale de l’industrie de pierre polie dans la vallée de l’Outaouais au cours de l’Archaïque supérieur

Lapensée-Paquette, Manuel

04 1900

La séquence culturelle régionale de l’Archaïque supérieur et terminal de la vallée de l’Outaouais n’est pas complétée, mais les variations stylistiques, technologiques et fonctionnelles des artéfacts sur le plan régional et local facilitent le découpage culturel. La reconstruction de la chaîne opératoire des haches, des herminettes et des gouges en pierre polie des sites Muldoon et Lamoureux, deux sites du sud-est ontarien, pourrait permettre de déceler une tradition technologique régionale à cheval entre l’Archaïque laurentien, l’Archaïque post-laurentien et d’autres courants des Grands Lacs. L’analyse des haches, des herminettes et des gouges des sites Muldoon et Lamoureux démontre l’utilisation massive de l’amphibolite. La moitié distale de ces outils est surtout polie et finement abrasée et la moitié proximale souvent éclatée, mais parfois abrasée. Ces éléments technologiques et l’industrie de pierre taillée démontrent des ressemblances et des différences avec les sites laurentiens de la région, et certains sites post-laurentiens du Québec et de l’Ontario méridional. Le matériel en pierre polie des sites Muldoon et Lamoureux démontre des liens technologiques vers l’Ouest tout en gardant un contact avec la sphère d’interaction postlaurentienne. La vallée de l’Outaouais semble alors prendre une place indépendante dans l’Archaïque supérieur, certaines continuités technologiques s’observent entre l’Archaïque laurentien et l’Archaïque post-laurentien. / The Late and Terminal Archaic cultural sequence of the Ottawa Valley region is not well defined. Definition of cultural boundaries should be based on stylistic, technological and functional variations, on a regional and local scale. The “chaîne opératoire” reconstruction of ground stone celts and gouges from the Muldoon and Lamoureux sites could lead to the recognition of a regional technological tradition linked to the Laurentian Archaic, the Post-Laurentian Archaic (Narrow Point) and other cultural trends from the Great Lakes. The analysis of celts and gouges from Muldoon and Lamoureux show a massive use of amphibolite. The distal half of these tools is mostly finely abraded and polished. The proximal half is frequently broken off, but sometimes abraded. These technological traits prove to have some resemblances and differences with Laurentian sites in the Ottawa Valley and some Post-laurentian sites in southern Quebec and Ontario. The ground stone material from these sites shows several links towards the west while participating in the Post-Laurentian Archaic interaction sphere. The Ottawa valley seems therefore to take an independent place in the Late Archaic, as technologic continuities are seen between Laurentian and Post-Laurentian assemblages.

Archaïque supérieur

Archaïque terminal

Archaïque laurentien

Archaïque post-laurentien

Technologie pierre polie

Amphibolite

Chaîne opératoire

Tradition technologique

Vallée de l'Outaouais

Hache. herminette, gouge

Late Archaic

Terminal Archaic

Laurentian Archaic

Post-Laurentian Archaic

Ground stone technology

Technological tradition

Ottawa Valley

Adze, axe, gouge

Pointe

Point