C. Bartholomae scite author profile

The upper ocean temperatures in the Angolan-Namibian coastal waters were anomalously high during March 1995, with positive temperature anomalies of up to 8°C. Maximum temperature differences were 30-50 m deep, reflecting a deepening of the thermocline from normal depths of 10-30 m. The unusually warm water mass covered the Angolan coast from Cabinda (5 0 S), the northern limit of the survey area, to at least 24°S off central Namibia. Higher than norma] temperatures were observed as far south as Ltideritz (27°S). Satellite-derived SST and direct observations indicated that the seaward distribution of warm water extended more than 300 km from the coast. Surface drogues released inshore along the central Namibian shelf suggested a maximum southward extension by 3 March 1995. The warm event was associated with observed mortalities in sardine Sardinops sagax, horse mackerel Trachurus trachurus capensis and kob Argyrosomus inodorus off the coast. It also caused a southward displacement of sardine stocks from Ango]a, resulting in an increased availability of pelagic fish in Namibian waters. Conditions have occasionally been anomalously warm in Angolan and Namibian waters in the past, with the last major event in 1984. These events are known as Benguela Nifios, because of their resemblance to the well known Pacific El Niiio. The 1995 Benguela Nino appeared to be associated with a positive subsurface salinity anomaly of 0.5 x 10-3 in Namibian waters and a negative (-4.0 x 10-3) surface salinity anomaly in Angolan waters, thought to be derived from the freshwater input of the Congo River.

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Southwestern Africa: Northern Benguela Current Region

Boyer¹,

Cole

Bartholomae³

2000

Marine Pollution Bulletin

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14 Forecasting shelf processes of relevance to living marine resources in the BCLME

Lingen¹,

Fréon²,

Hutchings³

et al. 2006

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Use of environmental parameters to explain the variability in spawnerrecruitment relationships of Namibian sardineSardinops sagax

Kirchner¹,

Bartholomae²,

Kreiner³

2009

African Journal of Marine Science

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This study attempts to explain the variability in recruitment of sardine in the northern Benguela and to develop potential models by including environmental information to predict recruitment. Two different recruitment and spawner number datasets were available: a VPA-developed dataset, for the period 1952-1987, and data from a simple age-structured model for 1992-2007. In all, four environmental indices were used: the degree of the intrusion of the warm Angola Current into northern Namibia, termed the Angola-Benguela front index; the extent of the upwelling area off central Namibia; average sea surface temperature (SST) over the northern and central Namibian shelf; and wind stress anomalies at Lüderitz as an indicator of upwelling strength. Contrary to general belief, it was found that extremely high recruitment can happen at low spawner levels. This occurred in years in which a large upwelling area existed in association with the minimum southward intrusion of the Angola Current. These effects override the normal negative linear relationships with SST and the positive linear relationship with wind. However, when the area of upwelling is average or small, the effects of spawner biomass, SST and wind become important factors in the variability of recruitment. To estimate exceptional recruitment, the upwelling and front indices were included in the model. To measure medium and weak recruitment, spawner numbers and the SST and wind anomaly formed part of the model. These models can be used simultaneously to predict recruitment before annual acoustic surveys take place and thus aid management decisions.

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C. Bartholomae

Propagation and origin of warm anomalies in the Angola Benguela upwelling system in 2001

Intrusion of warm surface water along the Angolan-Namibian coast in February–March 1995: the 1995 Benguela Nino

Southwestern Africa: Northern Benguela Current Region

14 Forecasting shelf processes of relevance to living marine resources in the BCLME

Use of environmental parameters to explain the variability in spawnerrecruitment relationships of Namibian sardineSardinops sagax

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