Deep ocean mass fluxes in the coastal upwelling off Mauritania from 1988 to  2012: variability on seasonal to decadal timescales

Fischer, Gerhard; Romero, Oscar E; Merkel, Ute; Donner, Barbara; Iversen, Morten Hvitfeldt; Nowald, Nicolas; Ratmeyer, Volker; Ruhland, Götz; Klann, Marco; Wefer, Gerold

doi:10.5194/bg-13-3071-2016

Cited by 46 publications

(104 citation statements)

References 85 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…A longer distance to the dust source in Africa at M4 compared to M2 may have also contributed to increasing the bioavailability of dust-driven nutrients further west (see Stuut and Prins, 2014). This could also help explain the lack of clear evidence for dust fertilization in open-ocean regions west of Africa (see Fischer et al, 2016;Neuer et al, 2004) since aerosols sinking in these areas would not be fine and chemically processed enough to act as fertilizers.…”

Section: Typical Oligotrophic Open-ocean Conditions At the Central Simentioning

confidence: 99%

“…To confirm whether the pulsed flux maxima of opportunistic species presented in our study truly reflected the response of living coccolithophores thriving in the overlying photic layer to such a combination of factors (ecological signal) or resulted from enhanced particle transfer efficiency (e.g. ballasting by dust; faecal pellet production by zooplankton grazers; Armstrong et al, 2002;Ziveri et al, 2007;Fischer and Karakas, 2009;Fischer et al, 2016), a comparison between settling coccolith assemblages and the living coccolithophore communities as well as with in situ atmospheric-oceanographic observations would be required.…”

Section: Influence Of Saharan Dust Depositionmentioning

confidence: 99%

See 1 more Smart Citation

Coccolithophore fluxes in the open tropical North Atlantic: influence of thermocline depth, Amazon water, and Saharan dust

et al. 2017

Self Cite

View full text Add to dashboard Cite

Abstract. Coccolithophores are calcifying phytoplankton and major contributors to both the organic and inorganic oceanic carbon pumps. Their export fluxes, species composition, and seasonal patterns were determined in two sediment trap moorings (M4 at 12 • N, 49 • W and M2 at 14 • N, 37 • W) collecting settling particles synchronously from October 2012 to November 2013 at 1200 m of water depth in the open equatorial North Atlantic.The two trap locations showed a similar seasonal pattern in total coccolith export fluxes and a predominantly tropical coccolithophore settling assemblage. Species fluxes were dominated throughout the year by lower photic zone (LPZ) taxa (Florisphaera profunda, Gladiolithus flabellatus) but also included upper photic zone (UPZ) taxa (Umbellosphaera spp., Rhabdosphaera spp., Umbilicosphaera spp., Helicosphaera spp.). The LPZ flora was most abundant during fall 2012, whereas the UPZ flora was more important during summer. In spite of these similarities, the western part of the study area produced persistently higher fluxes, averaging 241 × 10 7 ± 76 × 10 7 coccoliths m −2 d −1 at station M4 compared to only 66 × 10 7

show abstract

Section: Typical Oligotrophic Open-ocean Conditions At the Central Simentioning

confidence: 99%

Section: Influence Of Saharan Dust Depositionmentioning

confidence: 99%

Coccolithophore fluxes in the open tropical North Atlantic: influence of thermocline depth, Amazon water, and Saharan dust

et al. 2017

Self Cite

View full text Add to dashboard Cite

show abstract

“…Reported seasonality of dust concentrations and deposition is different on either side of the Atlantic, peaking in winter in the east (Bory et al, 2002;Fischer et al, 2016;Fomba et al, 2014;Neuer et al, 2004;Ratmeyer et al, 1999;Skonieczny et al, 2013), and in summer in the west (Jickells et al, 1998;Prospero et al, 2014). These differences can be related to seasonal atmospheric dynamics like the altitude at which the dust is transported, with dust at lower altitudes deposited close to the source in the east, while dust transported at higher altitudes can reach the remote western Atlantic ( Van der Does et al, 2016;Yu et al, 2019).…”

Section: Dust Deposition Along the Transectmentioning

confidence: 99%

Tropical Rains Controlling Deposition of Saharan Dust Across the North Atlantic Ocean

Does

Brummer

Crimpen

et al. 2020

Geophysical Research Letters

Self Cite

View full text Add to dashboard Cite

Mineral dust plays an important role in the atmospheric radiation budget as well as in the ocean carbon cycle through fertilization and by ballasting of settling organic matter. However, observational records of open‐ocean dust deposition are sparse. Here, we present the spatial and temporal evolution of Saharan dust deposition over 2 years from marine sediment traps across the North Atlantic, directly below the core of the Saharan dust plume, with highest dust fluxes observed in summer. We combined the observed deposition fluxes with model simulations and satellite observations and argue that dust deposition in the Atlantic is predominantly controlled by summer rains. The dominant depositional pathway changes from wet deposition in summer to dry deposition in winter. Wet deposition has previously been suggested to increase the release of dust‐derived nutrients and their bioavailability, which may be a key contributor to surface‐ocean productivity in remote and oligotrophic parts of the oceans.

show abstract

“…In open ocean oligotrophic settings, the partial dissolution of mineral dust particles in surface waters can strongly modulate marine biogeochemical cycles by increasing primary productivity (e.g., Pabortsava et al, 2017) through the supply of limiting nutrients, such as Fe, N, P, Co, Zn, and others, and therefore drive the uptake of atmospheric carbon into the oceans. In addition, mineral dust particles can act as ballast, increasing the sinking rate of organic carbon in marine snow and other aggregates, especially close to continental margins (Fischer et al, 2016;Francois et al, 2002). Indeed, atmospheric iron fertilization in currently iron-limited ecosystems such as the subantarctic Southern Ocean has been argued to have enhanced export productivity and contributed to lower atmospheric CO 2 levels during past glacials (e.g., Martin, 1990;Martínez-García et al, 2014).…”

Section: Overviewmentioning

confidence: 99%

No Correlation Between Atmospheric Dust and Surface Ocean Chlorophyll‐a in the Oligotrophic Gulf of Aqaba, Northern Red Sea

Torfstein

Kienast

2018

JGR Biogeosciences

View full text Add to dashboard Cite

High‐resolution records of daily surface chlorophyll‐a (chl‐a) concentrations and hourly atmospheric dust concentrations in the Gulf of Aqaba, northern Red Sea, are compared between 2012 and 2016 in order to examine the interplay between atmospheric dust input and surface productivity in this subtropic, nutrient‐poor marine ecosystem. Given that lags of days to weeks may occur between the dust input and phytoplankton response, and because of potential biases associated with differences in the sampling resolution, temporal offsets of 1–10 days between the dust and chl‐a are examined using smoothing windows between 3 and 31 days. The results suggest that there is no significant positive (or negative) correlation between dust and chl‐a surface concentrations, even when allowing for temporal offsets between the two records. This observation pertains to the seasonal as well as the daily time scale (i.e., abrupt dust storms). It is concluded that the role of atmospheric dust as a control on productivity in the Gulf of Aqaba and possibly other oligotrophic regions may have been previously overestimated.

show abstract

Deep ocean mass fluxes in the coastal upwelling off Mauritania from 1988 to 2012: variability on seasonal to decadal timescales

Cited by 46 publications

References 85 publications

Coccolithophore fluxes in the open tropical North Atlantic: influence of thermocline depth, Amazon water, and Saharan dust

Coccolithophore fluxes in the open tropical North Atlantic: influence of thermocline depth, Amazon water, and Saharan dust

Tropical Rains Controlling Deposition of Saharan Dust Across the North Atlantic Ocean

No Correlation Between Atmospheric Dust and Surface Ocean Chlorophyll‐a in the Oligotrophic Gulf of Aqaba, Northern Red Sea

Contact Info

Product

Resources

About