Michael O’Shea scite author profile

Reporting carbon (C) stocks in tree biomass (above-and belowground) to the United Nations Framework Convention on Climate Change (UN-FCCC) should be transparent and verifiable. The development of nationally specific data is considered 'good practice' to assist in meeting these reporting requirements. From this study, biomass functions were developed for estimating above-and belowground C stock in a 19-year-old stand of Sitka spruce (Picea sitchensis (Bong) Carr.). Our estimates were then tested against current default values used for reporting in Ireland and literature equations. Ten trees were destructively sampled to develop aboveground and tree component biomass equations. The roots were excavated and a root:shoot (R) ratio developed to estimate belowground biomass. Application of the total aboveground biomass function yielded a C stock estimate for the stand of 74 tonnes C ha À1 , with an uncertainty of 7%. The R ratio was determined to be 0.23, with an uncertainty of 10%. The C stock estimate of the belowground biomass component was then calculated to be 17 tonnes C ha À1 , with an uncertainty of 12%. The equivalent C stock estimate from the biomass expansion factor (BEF) method, applying Ireland's currently reported default values for BEF (inclusive of belowground biomass), wood density and C concentration and methods for estimating volume, was found to be 60 tonnes C ha À1 , with an uncertainty of 26%. We found that volume tables, currently used for determining merchantable timber volume in Irish forestry conditions, underestimated volume since they did not extend to the yield of the forest under investigation. Mean stock values for belowground biomass compared well with that generated using published models.

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The effects of historic abstraction of groundwater from the London Basin aquifers on groundwater quality

Kinniburgh

Gale

Smedley

et al. 1994

Applied Geochemistry

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Round Robin Laboratory Testing of a Scaled 10 MW Floating Horizontal Axis Wind Turbine

Gueydon

Judge

O’Shea

et al. 2021

JMSE

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This paper documents the round robin testing campaign carried out on a floating wind turbine as part of the EU H2020 MaRINET2 project. A 1/60th scale model of a 10 MW floating platform was tested in wave basins in four different locations around Europe. The tests carried out in each facility included decay tests, tests in regular and irregular waves with and without wind thrust, and tests to characterise the mooring system as well as the model itself. For the tests in wind, only the thrust of the turbine was considered and it was fixed to pre-selected levels. Hence, this work focuses on the hydrodynamic responses of a semi-submersible floating foundation. It was found that the global surge stiffness was comparable across facilities, except in one case where different azimuth angles were used for the mooring lines. Heave and pitch had the same stiffness coefficient and periods for all basins. Response Amplitude Operators (RAOs) were used to compare the responses in waves from all facilities. The shape of the motion RAOs were globally similar for all basins except around some particular frequencies. As the results were non-linear around the resonance and cancellation frequencies, the differences between facilities were magnified at these frequencies. Surge motions were significantly impacted by reflections leading to large differences in these RAOs between all basins.

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Catheter Position Tracking System Using Planar Magnetics and Closed Loop Current Control

et al. 2014

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Michael O’Shea

Mössbauer studies of manganese ferrite fine particles processed by ball-milling

Above- and belowground biomass measurements in an unthinned stand of Sitka spruce (Picea sitchensis (Bong) Carr.)

The effects of historic abstraction of groundwater from the London Basin aquifers on groundwater quality

Round Robin Laboratory Testing of a Scaled 10 MW Floating Horizontal Axis Wind Turbine

Catheter Position Tracking System Using Planar Magnetics and Closed Loop Current Control

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