What apparently precipitated his tragic end was a letter to The Times of London last September, in which he spoke approvingly of the use of informers in the apprehension and conviction of terrorists of all kinds. His death warrant was evidently sealed by the extremists' recognition of the truthfulness of his statement in that letter that ''the community as a whole in Northern Ireland is at last seeing the stranglehold of the terrorist organizations, on both sides, being broken.
We can only hope that the circumstances of his death will at least widen that ''community as a whole in Northern Ireland,'' which he - and apparently other members of that community as well - believed to be responding to his efforts. Please upgrade your browser. See next articles. View page in TimesMachine. Their combined citations are counted only for the first article. Merged citations. This "Cited by" count includes citations to the following articles in Scholar.
Add co-authors Co-authors. Upload PDF. Follow this author. New articles by this author. New citations to this author. New articles related to this author's research.
Email address for updates. Citations: Scopus - 78 Web of Science - Citations: Scopus - 41 Web of Science - Citations: Scopus - 21 Web of Science - Citations: Scopus - 30 Web of Science - Citations: Scopus - 9 Web of Science - 5.
Citations: Scopus - 4 Web of Science - 6. Citations: Scopus - 77 Web of Science - Citations: Scopus - 37 Web of Science - Citations: Scopus - 14 Web of Science - Citations: Scopus - 76 Web of Science - Citations: Scopus - 59 Web of Science - This scientist is forcing a major rethink of how we discover marine life. Rare fish handily appears right before researchers give up search 23 January The top 5 sea creatures Australians should be worried about 28 November Explainer: What are marine macrofauna? The last stand of the rarest fish on the planet 28 November New study predicts worldwide change in shallow reef ecosystems as waters warm 19 October Bold explorer years ago inspires scientists of today 31 May Leadership With leadership roles in both academia and business, Professor Edgar has influenced marine policy and management worldwide, while also forging new and innovative directions in ecology research.
Collaboration With a broad set of collaborative networks spanning the academic, business, government and not-for profit sectors, Professor Edgar is uniquely positioned to impact policy on marine protection - both within Australia and abroad. Highlighted publications 9 outputs. Journal Article outputs. Book 7 outputs. Chapter in Book 5 outputs.
Conference Publication 10 outputs. Contract Report, Consultant's Report 18 outputs. Other Public Output 16 outputs. Funding Summary Number of grants. Description Requested work by the Australian Government threatened species unit to resurvey red handfish populations and trial new approaches for identifying new populations. Description We seek to collaborate in a NZ proposal for seed funding to hold two expert-driven Workshops in a novel application of existing models of microbial growth to develop a universal mechanistic theory of how temperature governs biological growth from cells to communities, and microbes to megafauna.
University of North Florida
Project outputs include high profile journal publications and enhanced international collaborative profile. Description The Project aims to define how interactions between human society and herbivores influence marine ecosystem structure and function by i analysing geographic patterns emerging from recent systematic sampling of reef communities worldwide, and ii performing a critical suite of standardised field assays of fish, macro-invertebrate and meso-grazer herbivory to identify the role played by herbivores in facilitating the collapse and recovery of reef ecosystems.
- Health Insurance Plans and Prices for South Carolina Businesses (South Carolina Health Care Book 4)?
- In Flesh and Stone.
- Online Cenotaph;
- BBC Sport (International version);
- O instinto do sucesso (Portuguese Edition)?
The Project provides an unprecedented examination of the match between a critical ecosystem function and community structure across local to global scales, including the identification of non-linearities and interactions involving human impacts on this process. I will provide information of significant value to management, including the influence of climate change of reef flora and fauna, the direct and indirect bycatch to ecosystem effects of fishing activities including lobster, abalone, scalefish , influence of introduced species and marine pests, extent of recovery from cessation of major industrial pollution sources and improve understanding of natural variability across decadal scales.
The survey will be conducted during summerautumn of and will focus on benthic communities including epi-benthic invertebrate fauna and in-fauna , smaller fish communities particularly at deeper depths and aspects of the Maugean skate use of this area, such as presence of eggs, that may compliment past and current research on this species.
The methodology will follow current practice for sampling each of the faunal groups to be sampled. Replicated samples will be collected throughout the TWWHA region and at a range of depths, from the immediate subtidal down to 20 m. Epi-benthic mobile invertebrate fauna will be censured via timed swims with abundance recorded on a log scale as per rapid biodiversity assessment methods described for the Derwent Estuary.
Description The project aims to add a new functional dimension to the understanding of inshore ecosystems, facilitatingimproved management of our living marine heritage. Project goals are to i extend huge field datasets on thedensity and distribution of thousands of marine fishes, invertebrates and macro-algae, ii combine these datausing recent advances in quantitative ecological modelling to describe transfer of biomass between species athundreds of sites with primary focus on southern Australia, and iii provide site-level indices of major food webprocesses that, when combined with before, after, control, impact data, allow improved prediction of ecologicalconsequences of fishing, climate change, pest outbreaks, and pollution.
Description This project will clarify the functional role of macrofauna, a key but poorly studied faunal component of estuarine and marine ecosystems that channels production of plants to higher consumers such as fishes, while also reducing harmful blooms of epiphytic algae.
Edgar Graham Memorial Public Speaking Competition | Grosvenor Grammar School
Through experimental deployment of field microcosms, the project will investigate relationships between species richness, functional redundancy of species, and ecosystem services, with emphasis on perturbations to these relationships caused by the introduction of new invasive macrofaunal species. The importance of environmental conditions, particular disturbance, in facilitating resistance of native macrofaunal invertebrates to invasion by introduced pests will also be quantified. Description The overall objective of this project is to provide scientific information and advice that will support DEWHA in decision making in the marine environment, specifically in implementing and monitoring its marine bioregional plans, developing the NRSMPA, and support the information needs of ERIN and AWD and providing key baseline information for the Heritage Division.
This will be accomplished through five tightly integrated national programs, which will include the engagement of DEWHA staff in program development prior to any research commencing. The scope is national. New survey activity will be focussed off Northern Australia NW to Coral Sea , in recognition of its global marine biodiversity significance, the rapidly increasing pressures facing this region and the paucity of current information. Description This project will integrate broad spatial-, temporal- and taxonomic-scale datasets with phylogenetic hierarchies and taxonomic expertise to address key ecological and biogeographical questions related to: i historical and contemporary factors that have shaped the distribution of marine fauna around the southeastern Australian coast; ii factors affecting connectivity of gene flow between reefs; iii relationships between genetic richness and population stability; and iv optimal design of Australia's marine protected area network.
The project builds on existing ecological datasets that are unique global in spatial and temporal scale, adding a phylogenatic dimension through rapid recent advances in population genetics and taxonomy.