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Geoscience » Source Rock & Depositional Environment

Tracking Mesozoic Paleoclimate Events on the Nova Scotia Margin: Integrating Biostratigraphic Legacy Data with New Stable Carbon Isotope Analyses (part of the PAGEO research program)

November 2020 – November 2021

This study will obtain empirical evidence for climatic perturbations and regional changes in oceanic circulation patterns by (1) acquiring an extensive dataset of stable isotope measurements from key wells located in the area of interest, (2) integrating these measurements with existing quantitat

Geoscience » Source Rock & Depositional Environment

Analysis of Palaeoenvironment, Palaeoclimate and Palaeooceanographic Models to Predict Distribution of Source Rocks Offshore Nova Scotia (part of the PAGEO research program)

November 2020 – June 2021

The objective of this work is to predict the distribution of Tithonian and early Jurassic (Toarcian, Pliensbachian, Sinemurian, Hettangian) source rocks based on biogeographic principles derived from modern environments, and palaeoenvironmental interpretations derived from palaeogeographic mappin

Geoscience » Source Rock & Depositional Environment

Sequence stratigraphy, titania diagenesis and relationship to petroleum systems modeling

October 2018 – January 2021

This project examines different forms of titania (TiO2) minerals to confirm the relationship between late diagenetic titania (i.e., titania minerals transformed under the heat and pressure of sedimentary processes) and hydrocarbon migration and thus assess the use of titania polymorphs as “pathfi

Geoscience » Source Rock & Depositional Environment

Nova Scotia-Morocco Conjugate Biostratigraphy Project

September 2018 – June 2019

Biostratigraphy, the study of fossils to determine the age and depositional conditions of the sediments from which they are recovered, is a critical input to the seismic reconstruction of the Nova Scotia and Morocco margins.  Detailed biostratigraphical analyses have been completed by an internat

Innovative Solutions for De-risking Species Detections in Tidal Energy Environmental Effects Monitoring Programs

April 2018 – March 2019

With collaboration from Genome Atlantic, this research project is using a new environmental DNA technology to rapidly identify and determine abundance of different fish species in high-flow marine conditions. Experiments were conducted at Dalhousie University’s Aquatron facility. N

STREEM: Sensor Testing Research for Environmental Effects Monitoring

October 2018 – March 2019

The research goal was to enhance understanding on sensor performance and sensor-to-sensor interactions to inform environmental effects monitoring (EEM) protocol for future tidal turbine deployments.

Optimized Combinations of Tidal, Wind and Solar Electricity Generation with Energy Storage to Meet Nova Scotia’s Electrical Demand

August 2018 – March 2019

Wind, solar and tidal-generated electricity each have different, but potentially complimentary, cyclic times.

Feasibility Study: Tidal Sector Service Barge/Drydock

April – November 2018

The study investigates the feasibility of developing a generic, shared-use, multi-function turbine transport deployment and retrieval barge/drydock for use by the Nova Scotia tidal energy sector.

Using Dry Ports to Support Nova Scotia’s Tidal Industry

March – June 2018

This study investigates two Nova Scotia “dry ports” and their potential in supporting the Bay of Fundy region’s emergent tidal energy industry. The term ‘dry port’ refers to a port where the harbour bottom is mainly exposed at low tide.

Tidal Energy: Strategic Environmental Assessment – Bay of Fundy (Phase I)

April 2018

This Strategic Environmental Assessment (SEA) provides advice on whether, when and under what conditions tidal energy demonstration and commercial projects should be allowed in the Bay of Fundy.