BREAM, as part of the Bermuda Biodiversity Project at BZS, has developed the most comprehensive maps of Bermuda's coral reefs and other marine habitats that exist. In this post we will describe how we mapped all of the 35,000 patch reefs in the North Lagoon of Bermuda.
Our goal was to create a Geographic Information System (GIS) of all the reefs found around Bermuda. A GIS is a computerized map that also contains information about each object mapped. Computerized maps are better than paper maps because once you put all the information you know into the program, you can then ask it to tell you new information which the program can calculate based on what you told it. Some questions you can ask a computerized mapping programme are listed at the bottom of this post.
Before we mapped the location of each reef into a GIS (also called a geo-referenced map database), we needed a set of images of the entire Bermuda reef platform. The BBP, with assistance from the Dept. of Conservation Ser…
BERMUDAFISHERIES REGULATIONS 2010BR 55/2010 TABLE OF CONTENTS 1Citation 2Interpretation 3Issue of licences by the Director and Chairperson 4Application for fishing vessel licence 5Issue of fishing vessel licence 6Fixed fishing gear 7Register of licensed fishing vessels 8Identification marks 9Transfer of interest 10Production of fishing vessel licence 11Catch and effort returns 12Register of fishermen 13Designation as full-time fisherman 14Use of fishing nets 15General restrictions on taking fish 16General restrictions on taking lobster 17General restrictions on landing fish 18Sale of fish taken from the EEZ 19Sale of imported fish 20Protected fish 21Closed season for spiny lobsters 22Spearfishing 23Grant of licence to use fishing lines rigged with more than 15 hooks 24Duty to return fish which may not be taken 25Using fixed fishing gear 26Use of explosives, poison, dredge or trawl 27Prohibition against introducing live or unfrozen and uncooked fish into waters of Bermuda 28Interfering with fishing gear without co…
By Brittany Huntington, Doctoral Student, RMSAS Univ. of Miami and BREAM summer graduate intern, funded by ACP
What are these? Fossilized marshmallows? White chocolate petite fours? No no…this is real science people!
This abundance of ice cube shaped trapezoids are nicknamed “clod cards”: a simple yet effective way to measure water movement as a proxy for current and flow exposure at underwater sites (developed by Doty et al., 1971).
The mechanism is straight-forward. These plaster of paris ‘clods’ are all identical in composition, shape and size. Each clod should therefore dissolve slowly underwater at a constant rate.
By weighing the dry clod cards before deployment, leaving them underwater for a fixed time period (usually between 24-48 hours) and then collecting them and re-weighing each clod, we can determine the precise weight of plaster of paris lost from each card. Clods losing more weight were exposed to greater water flow than cards exposed to less water flow.