The essential guide to the living wonders of the Caribbean islands This is the first comprehensive illustrated guide to the natural world of the Caribbean islands. It contains 600 vivid color images featuring 451 species of plants, birds, mammals, fish, seashells, and much more. While the guide primarily looks at the most conspicuous and widespread species among the islands, it also includes rarely seen creatures—such as the Rhinoceros Iguana and Cuban Solenodon—giving readers a special sense of the region's diverse wildlife. Each species is represented by one or more color photos or illustrations; details regarding its identification, status, and distribution; and interesting aspects of its life history or relationship to humans. In addition, an introductory section focuses on the unique characteristics of the Caribbean’s fauna and flora, the threats faced by both, and some of the steps being taken to sustain the area’s extraordinary natural heritage. Wildlife of the Caribbean is the essential field guide for learning about the living wonders in this area of the world. The only guide of its kind for the Caribbean islands 600 detailed color images feature 451 amazing species Straightforward descriptions suitable for general audience Compact size makes the guide easy to carry
The science and common sense behind creating an inexpensive,flourishing marine aquarium Marine Aquarium Keeping is the firstcomplete, step-by-step handbook to bring scientific perspective andinsight to the practical basics of assembling and successfullymaintaining a conventional marine aquarium. While minimizinggadgetry and underscoring a simple, commonsense regimen of looking,seeing, and understanding, author and marine biologist StephenSpotte offers logical, chapter-by-chapter guidance to every facetof the hobby--from choosing equipment and setting up an aquarium,to selecting healthy animals and maintaining a flourishingunderwater environment. Inside, readers will discover: * How to make a new aquarium suitable for sustaining life * How to select healthy animals from species demonstrating goodcaptive survival * The step-by-step basics of routine maintenance * How to easily meet the nutritional requirements of marineanimals * The key to disease prevention * The use of seawater and artificial seawaters * The living subgravel filter * Aquarium decorations as shelter spaces and as aestheticfeatures * The marine aquarium as a living community An extensive health and disease section offers detailed,easy-to-follow treatment regimens, several unique to this volume,for a variety of common diseases. Current controversies and popularmyths surrounding aquarium keeping, such as the benefits ofsupplemental light and the superiority of plastic filtrants, arealso examined. A wealth of black-and-white and color photographsthat strikingly depict marine animals in their natural habitatbring key facets of the text to life. Indispensable to the amateuraquarist who appreciates both the beauty and science of thisfascinating pastime, this newest edition of the popular classic isthe complete guide to successful, inexpensive marine aquariumkeeping.
Heat flow estimates at two sites on the U.S. Atlantic continental margin are presented. An estimate of the heat flowing from the basement also has been obtained. About 4.8 km of sediments penetrated at the COST B-2 and 4.0 km at the COST B-3 were deposited since the Upper Jurassic. Well logs were used to evaluate thermal gradients and sedimentation rates, whereas thermal conductivities and radiogenic heat productions were measured on drill cuttings samples. A procedure to estimate in-situ thermal conductivity from drill cuttings and well logs is described. A substantial set of samples, in the form of drill cuttings, were sorted in four major lithologies: sandstones, siltstones, shales and limestones. Laboratory measurements of density, porosity, thermal conductivity, quartz (%), potassium (%), uranium (ppm) and thorium (ppm) were performed on 128 reorganized and pulverized samples. A significant correlation of the matrix thermal conductivity to quartz and potassium content was found. In situ porosity and volume fraction of each lithology, determined mainly from well logs, were used to calculate in situ mean thermal conductivity. Finally the mean in situ vertical component of the thermal conductivity, as required for heat flow values, has been estimated from a correction factor for the anisotropy of each lithology. The in-situ temperature and anisotropy effects substantially decrease estimates of thermal conductivity at depth. Below the uppermost 1 km in both wells the best estimate of the thermal gradient is 26.3°C km- 1 at COST B-2 and 26.1°C km- 1 at COST B-3, whereas in situ mean thermal conductivities range between about 1.8 and 1.9 W m- 1 K- 1 (4.3-4.5 T.C.U.). The average heat flow is estimated as about 45 mwm- 2 (1.07 H.F.U.) at COST B-2 and 44 mWm- 2 (1.06 H.F.U.) at COST B-3, with an uncertainty of about 20-25%. The mean radiogenic production in sediments at the two sites has been estimated as 1.83 (COST B-2) and 1.44 (COST B-3) 10- 6Wm- 3. With a 12-14 km thick sedimentary sequence a radioactive contribution of 20-25 mWm- 2 can be expected. The effects of sediment deposition, compaction, pore water advection and radiogenic heat production have been combined in a numerical model (Hutchison, 1985) to estimate the undisturbed basement heat flux. Although the sedimentation depresses the basement heat flux by 15-20%, this effect is more than compensated by radioactive heat production in the sediments, so that the surface flux is estimated to be higher than that from the basement. The latter is calculated at about 33-39 mwm- 2 (0.8-0.9 H.F.U.), a relatively low value. The overall uncertainity is about ± 20-25%, and other estimates on continental margins with thick sediments (e.g. Reiter and Jessop, 1985) probably have at least a similar uncertainty.