Drift of large tabular icebergs in response to atmospheric surface pressure gradients, an observational study

AbstractWhile ocean current and winds certainly play a major role in guiding the trajectories of free-floating icebergs, the direct effect of atmospheric surface pressure gradients can also have an important influence on the trajectories of large icebergs whose horizontal dimensions are sufficiently great to span synoptic systems. This effect is examined as a way of understanding why icebergs B15A, B15J, B15K, and C16 became “trapped” in a limited region immediately north of Ross Island for a period of several years, without being grounded. This limited region is otherwise flushed annually by summer surface winds and currents; thus the delay of the northward drift of the large icebergs (particularly B15A and B15J) defied expectation. The best explanation for this unexpected iceberg behaviour is that the large volcanic massifs on Ross Island create a quasi-permanent surface pressure anomaly patterned as a dipole, with high pressure in the area upwind of the island (an area appropriately called Windless Bight), and low pressure in the downwind area of the iceberg parking lot. The surface pressure regime experienced by two icebergs B15A and B15K is estimated using Automatic Weather Station observations and Global Positioning System receivers deployed on their surfaces to explain why they remained trapped. Breakdown of the atmospheric pressure gradients allowed them to eventually escape from the region to the north-west.

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QUASI-STATIONARY PLANETARY WAVES IN MID-LATITUDE STRATOSPHERE–MESOSPHERE IN WINTER 2011-2020

ГРААЛЬ НАУКИ ◽

10.36074/grail-of-science.19.11.2021.060 ◽

2021 ◽

pp. 307-311

Author(s):

Chenning Zhang ◽

Oleksandr Evtushevsky ◽

Gennadi Milinevsky

Keyword(s):

Surface Pressure ◽

Satellite Data ◽

Geopotential Height ◽

Stationary Wave ◽

Planetary Waves ◽

Stationary Waves ◽

Aleutian Low ◽

The North ◽

Pressure Anomaly ◽

Icelandic Low

The 10-year climatology (2011–2020) of quasi-stationary planetary waves in the mid-latitude stratosphere and mesosphere (40–50N, up to 90 km) has been analyzed. Longitude–altitude sections of geopotential height and ozone have been obtained using the Aura MLS satellite data. It is found that stationary wave 1 propagates into the mesosphere from the North American High and Icelandic Low, which are adjacent surface pressure anomalies in the structure of stationary wave 2. Unexpectedly, the strongest pressure anomaly in the Aleutian Low region does not contribute to the stationary wave 1 formation in the mesosphere. The vertical phase transformations of stationary waves in geopotential height and ozone show inconsistencies that should be studied separately.

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Representation of Northwest African upwelling in CMIP5 models

10.5194/egusphere-egu2020-20615 ◽

2020 ◽

Author(s):

Antonio Castaño-Tierno ◽

Belén Rodríguez-Fonseca ◽

Elsa Mohino ◽

Teresa Losada

Keyword(s):

Coastal Upwelling ◽

Sea Surface ◽

Cmip5 Models ◽

Pressure Gradients ◽

Ekman Pumping ◽

North West ◽

The North ◽

Northwest Africa ◽

Leading Mode ◽

Pressure Changes

The Northwest Africa (NWA) upwelling region is located along the Senegalese and Mauritanian coast, between 10&#176;N and 25&#176;N and in a very narrow longitudinal band. In this region, most of the upwelled waters are due to alongshore surface winds through Ekman pumping.The rapid increase in the upper ocean upwelling in this region along the 20th century and the contradictions found about future projections put forward the need for a better understanding of model&#8217;s ability to simulate Ekman induced upwelling processes.In this work we assess intermodel variability to better understand the causes of different responses and spread among a set of CMIIP5 models. &#160;Results suggest that the seasonal cycle of NWA upwelling is qualitatively well simulated by CMIP5 models, although models tend to show strong biases for the permanent upwelling latitudes (north of 20&#176;N) and the seasonal upwelling area (around 15&#176;N in boreal spring). The maximum vertical temperature gradient shown by CMIP5 models is higher than that of SODA reanalysis and prevents cold waters from deeper layers to reach the surface, thus making coastal upwelling less effective in affecting sea surface temperatures.Most of the intermodel variance is explained by the two first EOF modes of intermodel variability. The first mode shows a latitudinal structure, with a maximum in the permanent upwelling season, while. the second one is more seasonal. Both modes are very related to changes in the North-West Africa land-sea surface pressure gradient. In the case of the leading mode, incoming solar radiation differences between the North African desert and the ocean are the cause of the pressure gradients. For the second mode pressure changes in the Atlantic Ocean are driven by ITCZ shifts in response to interhemispheric differential warming.

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Preliminary spatial behaviour of warru (Petrogale lateralis MacDonnell Ranges race) in the Anangu Pitjantjatjara Yankunytjatjara Lands, South Australia

Australian Mammalogy ◽

10.1071/am10034 ◽

2011 ◽

Vol 33 (2) ◽

pp. 181 ◽

Cited By ~ 5

Author(s):

Laura Ruykys ◽

Matthew J. Ward ◽

David A. Taggart ◽

William G. Breed

Keyword(s):

Global Positioning System ◽

Arid Zone ◽

Management Strategies ◽

South Australia ◽

High Mobility ◽

Future Research ◽

North West ◽

The North ◽

Similar Work ◽

Global Positioning

This study aimed to determine the home range and movement patterns of Petrogale lateralis in the arid-zone Anangu Pitjantjatjara Yankunytjatjara Lands in the north-west of South Australia. Ten Global Positioning System radio-collars were attached to animals, with collars programmed to function in 2008–09. Catastrophic collar failure resulted in only 28 days of data, from July 2008, being retrieved from one adult female. During this time, the female occupied a 90% kernel range of 57.9 ha and core (50%) range of 9.3 ha. The animal moved a total of 50.8 km and undertook three journeys of over 1 km. The longest of these was 1.2 km, undertaken in 89 min. The high mobility of the study animal has implications for management, particularly predator baiting and fire management strategies. Future research should assess the validity of these results by increasing sample size and conducting similar work for other arid-zone P. lateralis. The lessons learnt from the current GPS collar deployment may also be of interest to other researchers.

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Marine Litter Drift Monitoring (Forecast and Hindcast) in the Channel and the North Atlantic

10.5194/egusphere-egu2020-13029 ◽

2020 ◽

Author(s):

Anne Vallette ◽

Fatimatou Coulibaly ◽

Stephen Emsley

Keyword(s):

Hydrological Cycle ◽

Quality Analysis ◽

Ocean Current ◽

Rip Currents ◽

Marine Litter ◽

North West ◽

The North ◽

Drift Model ◽

Run Off ◽

Beach Litter

Meteorological events, such as storms and/or gale force winds, act as triggers to influx of macro litter into the hydrological cycle via run off from land into rivers. These rivers discharge into the sea and the marine litter is then transported through the region by currents and wind either becoming entrained in the sea, possibly sinking and/or disintegrating into micro marine litter or ending up being stranded at the coast then washed back ashore or flown on to the land. Thanks to a Copernicus Marine Environment Monitoring Service (CMEMS) grant, ARGANS Ltd has developed a web-based service, called Litter-TEP, that aims to track marine litter from the source. It uses a parametric model of riverine macro litter discharge, to seed drift models of the NE Atlantic Shelf Region (OSPAR II/III), providing to end-users a 5-day running forecast of macro-litter density in the sea, potential beach stranding at the coast and, inversely, where a beach litter event is identified to provide the likelihood of where the litter entered the sea. In order to determine drift trajectories, we use ocean current, wave and wind forecasts from Copernicus Marine Service high quality analysis and forecast products for the European North West Shelf seas. The main issues which have been identified, and for which we perform additional R&D, are the following: a) source&#8217;s modelling and estimation of volume of litter introduced to the sea, b) litter&#8217;s types for which the drift model should be adapted, and c) the spatial resolution of models in the littoral area (nearshore) vs. offshore. In fact, for the beaching & refloating models, we need of a bathymetry at the scale of 1/3000 and a coastal cartography at 1/1000 to obtain the beach profile, then calculate the runoff on the beach, the rip currents, etc. The next enhancement, driven by users&#8217; requirements, is to improve the land discharge model vide collection of litter seeings with citizen crowdsourcing apps, and records of beach litter surveys, and beach cleaning campaigns. Another improvement, in the mid-term, targets the discharge models, using refined hydrologic schemes for the watersheds, and better estimates of habitats (rural, urban, industrial, &#8230;). &#160;ARGANS Ltd service is the next-generation tool for planning beach cleaning and helping local authorities to track back the trash to their sources, leading the fight against litter pollution and for improvement of the river water quality.&#160;

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SEM and TEM observations of sperm development in the testis of the freshwater fish Oreochromis mossambicus

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100157838 ◽

1990 ◽

Vol 48 (3) ◽

pp. 58-59

Author(s):

Daryl A. Cornish ◽

George L. Smit

Keyword(s):

Morphological Characteristics ◽

Oreochromis Mossambicus ◽

Breeding Cycle ◽

Limited Information ◽

North West ◽

The North ◽

Sem And Tem ◽

Sperm Development ◽

Ultrastructural Characteristics ◽

The University

Oreochromis mossambicus is currently receiving much attention as a candidater species for aquaculture programs within Southern Africa. This has stimulated interest in its breeding cycle as well as the morphological characteristics of the gonads. Limited information is available on SEM and TEM observations of the male gonads. It is known that the testis of O. mossambicus is a paired, intra-abdominal structure of the lobular type, although further details of its characteristics are not known. Current investigations have shown that spermatids reach full maturity some two months after the female becomes gravid. Throughout the year, the testes contain spermatids at various stages of development although spermiogenesis appears to be maximal during November when spawning occurs. This paper describes the morphological and ultrastructural characteristics of the testes and spermatids.Specimens of this fish were collected at Syferkuil Dam, 8 km north- west of the University of the North over a twelve month period, sacrificed and the testes excised.

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