Zooplankton Spatial and Temporal Distribution in a Tropical Oceanic Area off West Africa

Tropical instability vortices are believed to modify the trophic food web by affecting plankton production. Such instabilities have been evidenced in a tuna fishing area of the Atlantic (10°–20° W and 2°–5° N). However, the origin of the tuna abundance remains uncertain as no data on zooplankton communities on which tuna preys are supposed to fed upon are available. This study was focused on short term spatial and diel variations of mesozooplankton communities sampled at 2° N during and after the passage of an instability wave evidenced from satellite imagery, at 4° N and at 0°, i.e. in the Equatorial divergence. Samples were collected with an opening–closing multisampler and with a WP2 net (200 μm). Copepods prevailed (86–92% of the total zooplankton) with Clausocalanidae, Oncaeidae, Corycaeidae, Calanidae, Eucalanidae as dominant families. At 0° and at 2° N during the wave, large-sized organisms constituted over 50% of total dry weight (DW). These percentages decreased after the wave and at 4° N. Zooplankton DW and densities were highest at 0° and lowest at 4° N. At 2° N after the wave, we observed a strong increase in the abundance of zooplankton which surpassed that at 0°. This increase mainly resulted from an increase in small copepods and copepodites. Our results suggest that the high production linked to the upwelling of nutrients caused by the geostrophic divergence is partly advected northward by the instability wave. The advection did not reach 4° N which displayed the characteristics of a typical tropical structure.     

Neglected Tropical Diseases in Sub-Saharan Africa: Review of Their Prevalence,Distribution, and Disease Burden

The neglected tropical diseases (NTDs) are the most common conditions affecting the poorest 500 million people living in sub-Saharan Africa (SSA), and together produce a burden of disease that may be equivalent to up to one-half of SSA''s malaria disease burden and more than double that caused by tuberculosis. Approximately 85% of the NTD disease burden results from helminth infections. Hookworm infection occurs in almost half of SSA''s poorest people, including 40–50 million school-aged children and 7 million pregnant women in whom it is a leading cause of anemia. Schistosomiasis is the second most prevalent NTD after hookworm (192 million cases), accounting for 93% of the world''s number of cases and possibly associated with increased horizontal transmission of HIV/AIDS. Lymphatic filariasis (46–51 million cases) and onchocerciasis (37 million cases) are also widespread in SSA, each disease representing a significant cause of disability and reduction in the region''s agricultural productivity. There is a dearth of information on Africa''s non-helminth NTDs. The protozoan infections, human African trypanosomiasis and visceral leishmaniasis, affect almost 100,000 people, primarily in areas of conflict in SSA where they cause high mortality, and where trachoma is the most prevalent bacterial NTD (30 million cases). However, there are little or no data on some very important protozoan infections, e.g., amebiasis and toxoplasmosis; bacterial infections, e.g., typhoid fever and non-typhoidal salmonellosis, the tick-borne bacterial zoonoses, and non-tuberculosis mycobaterial infections; and arboviral infections. Thus, the overall burden of Africa''s NTDs may be severely underestimated. A full assessment is an important step for disease control priorities, particularly in Nigeria and the Democratic Republic of Congo, where the greatest number of NTDs may occur.