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Morphometrics and preliminary biology of the caridean shrimp Nauticaris marionis Bate, 1888, at the Prince Edward Islands (South Ocean), 37° 50'E, 46° 45'SKuun, Patrick John January 1998 (has links)
Carapace length, as the best measure of N. marionis body size, is precisely defined. It is shown that N. marionis is a partially protandric hermaphrodite. N. marionis appear to hatch just before April each year, with a little hatching persisting until May. The vast majority of juveniles develop into males. The majority of males transmutate into females in their third year. By April/May the transmutation is probably complete. Reproduction can occur before all male secondary characteristics have been lost. A small minority of individuals develop directly into females without passing through a male phase. At least some of these females can be initially recognized after they have developed mature ovaries by the presence of appendices internae on their first pleopods, a male copulatory structure which all juvenile N. marionis possess. Too few gravid females were recovered to make any statement on whether spawning can occur before this structure is lost. Such females may lose their first pleopod appendices internae in one moult, possibly just before spawning, which may be in late April/early May. Such individuals seem to mature into ovigerous females at a slightly smaller carapace length than do the majority of females which have had a male-phase past. A few females which have passed through a male phase seem to begin developing ovaries at about this small carapace length as well. Once the appendices internae have been lost there appears to be no way of identifying any given female's past life-history. It would seem that during the first year of life N. marionis survive in undetected localities, moult into juveniles, and then settle amongst the benthos from the plankton. Diurnal vertical migration then occurs up to an unknown larger size. It is not known whether the larvae are initially planktonic or not. It is possible that settling of small N. marionis onto the benthos only begins after November. Whether the appendices masculinae of some males only begin growing after they have settled Abstract XIX onto the benthos is unknown, but for the majority at least this begins whilst they are planktonic juveniles. Individuals older than five years are undetectable using samples of the sizes analyzed in this thesis, but they may well persist until quite an advanced age. Niche separation between smaller and larger N. marionis individuals may occur. Diel vertical migration may occur to some extent amongst large N. marionis. Itinerant euphausiids may contribute substantially to the maintenance of top predator populations at the archipelago, either through direct predation by those predators or via predation by N. marionis, which in turn are consumed by those predators. N. marionis itself is an opportunistic feeder, although the majority of its prey seem to be suspension feeders, both benthic and pelagic. In multisample situations, ageing of N. marionis cohorts is made less subjective if one utilizes the phenomenon of synchronized sexual inversion. The von Bertalanffy growth parameters for N. marionis are tentatively identified as k = 0.2353/year, L_ = 12.69mm, to = -0.2828 years and WW_ = 2.03g. The programme FiSAT is discussed, having been found to be extremely useful, but having also been found to have certain faults. Various hypotheses are proposed and are put forward as suggestions for future studies.
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A contribution to the oceanology of the Prince Edward IslandsParker, Llewellyn Derek January 1985 (has links)
While the terrestrial ecosystem of the Prince Edward Island Group has been subject to intensive research, the marine ecosystem has to a large extent been neglected. This together with the possible existence of an "island effect" at these islands, as was first proposed after the visit to these islands of the French vessel Marion Dufresne, led to the initiation of a programme to determine the distribution of standing stocks and the productivity of phytoplankton and zooplankton in the neritic seas of these islands. To do this and before a detailed biological survey could be attempted, it was first necessary to define the physical and chemical properties of the circuminsular waters. This dissertation discusses the results of several surveys to these islands in the light of a possible "island effect" and comments upon processes likely to influence such an effect
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Trophodynamics of the benthic and hyperbenthic communities inhabiting the Sub-Antarctic Prince Edward Islands : stable isotope and fatty acid signaturesAllan, Elizabeth Louise January 2011 (has links)
The aim of this study was to investigate spatial changes in the trophic and energy pathways of the benthic community in the shallow shelf waters of the sub-Antarctic Prince Edward Islands (PEI). A combination of stable isotope and fatty acid analyses were used to provide a time-integrated view of the assimilated feeding history of selected components of the PEI benthic community. This study forms part of the larger project entitled “Variability in the Southern Ocean ecosystems” and is a contribution to the South African National Antarctic Programme (SANAP). During austral autumn 2009, benthic specimens were collected from 10 stations (from depths of 70 to 295 m) in different regions around the PEI: inter-island shelf (upstream, between and downstream of the islands) and nearshore. Historical data were combined with new data collected during 2009 to assess the long-term trends in the feeding ecology of the benthos in the region of the islands. The stable isotope and fatty acid signatures of the benthic suspension- and deposit-feeding organisms generated during this study suggested that these two communities incorporated both phytoplankton and kelp in their diets. Stable isotope, and to a lesser extent fatty acid signatures, indicated that kelp contributed more to the diets of those organisms in close proximity to the kelp beds (nearshore stations) than those from the inter-island region. Overall, however, pelagic phytoplankton was the dominant food source in the diets of all organisms, even for those living near the kelp beds. Notable exceptions were the sponges and bryozoans, in which kelp and phytoplankton contributed similar proportions to their diets, most likely resulting from a size restricted feeding mode. There were, therefore, no distinct spatial differences in the importance of the various food sources. However, fatty acid compositional data indicated increased food quality between and within the lee of the islands compared to upstream. The organisms collected upstream of the PEI had substantially lower quantities of total fatty acids (TFAs) than organisms of the same species collected from nearshore, open shelf or downstream stations. The increased food quality between and within the lee of the islands was likely a result of the “island mass effect”, which reflects increased phytoplankton concentrations at the PEI. The fatty acid profiles of hyperbenthic shrimp Nauticaris marionis, a key species in the PEI ecosystem, revealed no distinct ontogenetic or spatial patterns. This result is in contrast to the stable isotope analyses, which detected both spatial and ontogenetic differences in the diet of the shrimp. Nearshore shrimp were more ₁₃C-enriched than those from the inter-island region, suggesting increased kelp entering the food web within these regions. In addition, the shrimps demonstrated enrichment in δ₁₃C and δ₁₅N signatures with an increase in size, resulting in a relatively distinct separation of size classes, thus reflecting niche separation through their diets. The fatty acid profiles revealed that the shrimp all contained large proportions of polyunsaturated fatty acids (PUFAs) and essential fatty acids (EFAs), indicating that the quality of food consumed was similar among size class and region despite the niche separation and variation in carbon sources utilised. In addition, diatom and dinoflagellate fatty acids (20:5ω3 and 22:6ω3, respectively) occurred in the highest proportions in N. marionis, highlighting the importance of phytoplankton (indirectly) in their diet. These results represent strong evidence that phytoplankton is an importance food source in the PEI ecosystem. The temporal investigation of isotope signatures in the benthos at the PEI indicated that N. marionis demonstrated an overall depletion in δ₁₃C signatures over the period of 1984 to 2009 (nearshore: -2.55 ‰, inter-island: -2.32 ‰). Overall, the benthic community showed similar depletions in δ13C signatures (from -1.96 to -4.70 ‰), suggesting that shifts have occurred in the carbon signatures at the base of the food web. The depletion in δ₁₃C signatures of the benthos at the PEI most likely reflects increased contributions of smaller slow growing phytoplankton cells (more depleted signatures than large fast growing cells) in the diets of these organisms over time. These diet shifts, in turn, suggest a decrease in productivity has occurred at the islands, likely due to a decreased frequency and intensity of the “island mass effect”. Decreased phytoplankton productivity at the PEI likely results from the southward shift in the average position of the sub-Antarctic Front (SAF), most likely in response to climate change, which in turn promotes flow-through conditions rather than retention at the PEI.
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Spatial patterns in the microarthropod community associated with Azorella selago (Apiaceae) on the sub-Antarctic Prince Edward IslandsHugo, Elizabeth Aletta 12 1900 (has links)
Dissertation (PhD)--University of Stellenbosch, 2006. / ENGLISH ABSTRACT: The spatial distribution of animals and plants at different scales is a central theme in
ecology. Knowledge of biodiversity distribution is essential, especially with the current
threat of climate change and invasion by alien species. Since the impact of climate
change and alien species will be, and has already been pronounced in polar regions,
information on the current spatial distributions of biota in these regions is critical to
predict the consequences of climate change and alien species on the future survival,
distribution and abundance of indigenous biota. This study was conducted on the sub-
Antarctic Prince Edward Islands (consisting of Marion Island and Prince Edward Island),
which have experienced rapid climate changes over the past 50 years. Additionally, a
number of alien plant, vertebrate and invertebrate (also microarthropod) species have
been introduced to these islands. Since microarthropods (mites and springtails) play an
essential role in decomposition and mineralization of plant material on the islands, the
loss of microarthropods from decomposer communities might have disastrous results for
ecosystem processes. Therefore it is essential to know the current distributions of
microarthropods in order to predict future distributions patterns in reaction to climate
change and invasive species. In this study, the spatial distribution of mites and springtails
inhabiting the cushion plant Azorella selago Hook, were examined at different scales of
observation. Firstly, the microarthropod community was examined at a fine scale. The
relationship between microarthropod species richness and abundance and plant size,
isolation, within-plant variability, grass cover and microclimate variables were
investigated. Thereafter, the spatial variability of microarthropod abundances was
examined within stands of plants, with statistical methods using varying degrees of
locational information to determine if microarthropod abundance is random, regular or
aggregated at this scale. Further, the spatial variability of microarthropod communities in
A. selago at different altitudes and on different sides of Marion Island, i.e. island-wide
scale, was examined. The last scale of observation was the island-wide scale, in which
microarthropod assemblages were compared between Marion Island and Prince Edward
Island, as well as in different plant species. Microarthropods showed spatial
heterogeneity within A. selago plants (higher abundances in eastern and southern sides of plants), island-wide (lower springtail abundance on the eastern side of the island and at
high altitudes) and between islands (more alien species on Marion Island). In contrast,
microarthropod abundance was not spatially heterogeneous within a stand of plants, i.e.
mostly randomly distributed. The possible mechanisms responsible for these patterns
differ between scales, and range from temperature and nutrient availability at the within
plant and island wide scale to alien species between islands. Climate change is likely to
alter these distribution patterns of microarthropods, either directly (unfavourable climate
for indigenous species growth, development and dispersal) or indirectly (favouring alien
microarthropod species; increase in grass cover on A. selago plants may alter community
structure). The information presented here, is essential for predicting the possible impacts
of climate change on microarthropods in fellfield ecosystems on sub-Antarctic islands. / AFRIKAANSE OPSOMMING: Die ruimtelike verspreiding van diere en plante op verskillende skale is ‘n sentrale tema
in ekologie. Kennis van die verspreiding van biodiversiteit is belangrik, veral met die
huidige bedreiging van klimaatsverandering en indringerspesies. Omdat die impak van
klimaatsverandering en indringerspesies in die poolstreke alreeds duidelik is en nog meer
so sal word, is inligting oor die huidige ruimtelike verspreiding van biota in hierdie streke
noodsaaklik. Hierdie studie is op die sub-Antarktiese Prins Edward-eilande (bestaande uit
Marion Eiland en Prins Edward Eiland) uitgevoer, waar die klimaat vinnig verander het
oor die afeglope 50 jaar. Bykomend is ‘n aantal indringer plant, vertebraat en invertebraat
(ook mikroartropood) spesies op die eilande ingebring. Omdat mikroartropoda (myte en
springsterte) ‘n baie belangrike rol in ontbinding en mineralisering van plantmateriaal op
hierdie eilande speel, sal die verlies van mikroartropoda uit die ontbindingsgemeenskap
rampspoedige gevolge vir die prosesse in die ekosisteem hê. Kennis van die huidige
verpreiding van mikroartropoda is dus noodsaaklik om die toekomstige
verspreidingspatrone, asook oorlewing en volopheid van inheemse spesies in reaksie op
klimaatsveranding en indringerspesies, te voorspel. In hierdie studie is die ruimtelike
verspreiding van myte en springsterte wat in die kussingplant Azorella selago Hook
voorkom, op verskillende ruimtelike skale ondersoek. Eerstens is die mikroartropood
gemeenskap op ‘n klein skaal ondersoek. Die verwantskap tussen mikroartropood spesies
rykheid en volopheid en plantgrootte, isolasie, binne-plant variasie, gras bedekking en
mikroklimaat faktore is ondersoek. Daarna is die ruimtelike variasie van mikroartropood
volopheid binne in ‘n plantstand ondersoek deur gebruik te maak van metodes wat
verskillende grade van ligging data gebruik. Dit is gedoen om uit te vind of
mikroartropood volopheid lukraak, reëlmatig of versameld verspreid is. Verder is die
ruimtelike verspreiding van mikroartropood gemeenskappe in A. selago op verskillende
hoogtes bo seespieël en op verskillende kante van Marion Eiland ondersoek. Laastens is
die mikroartropood gemeenskap op Marion Eiland en Prins Edward Eiland, asook die
gemeenskap in verskillende plant spesies vergelyk. Mikroartropoda is ruimtelik
heterogeen verspreid binne-in A. selago (meer individue in die oostelike en suidelike
kante van plante), asook regoor Marion Eiland (minder springstert individue aan die
ooste kant van die eiland asook minder op hoë hoogtes bo seespieël) en tussen eilande (meer indringerspesies op Marion Eiland). In teenstelling hiermee is mikroartropood
volopheid ruimtelik homogeen oor ‘n plantstand, dus meestal lukraak verspreid. Die
meganismes wat moontlik vir hierdie patrone verantwoordelik is wissel van temperatuur
en voedselbeskikbaarheid op die binne-plant en oor die eiland skaal tot indringerspesies
op die tussen-eiland skaal. Klimaatsverandering mag waarskynlik mikroartropood
verspreidingspatrone direk (ongunstige klimaat vir inheemse spesies se groei,
ontwikkeling en verspreiding), of indirek verander (indringer spesies word begunstig;
toename in grasbedekking bo-op A. selago mag die gemeenskapstruktuur van
mikroartropoda verander). Hierdie inligting is belangrik vir die voorspelling van die
moontlike impak van klimaatsverandering op mikroartropoda in klipveld ekosisteme op
sub-Antarktiese eilande.
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Mesozooplankton community structure in the vicinity of the Prince Edward Islands (Southern Ocean) 37⁰ 50'E, 46⁰ 45'SHunt, Brian Peter Vere January 2000 (has links)
Mesozooplankton community structure in the vicinity of the Prince Edward Islands (PEIs) was investigated during six surveys conducted in late austral summer (April/May), 1996 to 1999. Each year zooplankton samples were collected with a bongo net (300 µm mesh) at stations upstream (west), between and downstream (east) of the islands. Chlorophyll a concentrations were determined fluorometrically, corresponding with each net tow. The positions of the Subantarctic Front (SAF) and the Antarctic Polar Front (APF), in relation to the islands in the upstream region, were determined by a line of CTD and/or XBT stations. Both the SAF and the APF were characterised by a high degree of meridional variation in position. Changes in position of the fronts were shown to occur very rapidly. In 1999 the APF moved southwards by ~40nm and the SAF northwards by ~60nm in a period of two weeks, while in 1996 the SAF appeared to move ~120nm northwards in a two week period. The positions of the SAF and APF appeared to have a significant impact on phytoplankton biomass in the vicinity of the PEIs, through the alteration of local flow dynamics. Water retention in 1996, associated with the location of the SAF and APF far to the north and south of the PEIs respectively, corresponded with high chlorophyll a concentrations in the inter-island region (reaching 1.54 mg.m^(-3)). When the fronts were close to the islands, in 1997 and 1999, and a flow through environment existed, chlorophyll a concentrations in the inter-island region were comparatively low. Although biomass enhancement was only observed at the SAF in 1996, phytoplankton size structure in 1999 indicated that, when close to the PEIs, frontal production may be transported to the island system. This is potentially an important source of allochthonous input into the island system. Zooplankton assemblages were a mix of sub-Antarctic and Antarctic communities, with a weak presence of sub-tropical species. Cluster analysis showed that during each survey the region in the vicinity of the PEIs was divided into different, spatially separated zooplankton communities, associated with water masses of different origins. These communities were identified by variations in the abundance and biomass of species rather than variation in species composition and, in general, there was a relatively high degree of similarity both within and between surveys. Inter-annual community analysis revealed that, in many cases, there was greater similarity between communities from different years than communities within years, indicating that short-term variability exceeded inter-annual variability. Multiple regression analysis showed that the major correlate with zooplankton community structure during all surveys was sea temperature, accounting for as much as 77% of the variation in community structure. Temperature was indicative of the relative contribution of sub-Antarctic and Antarctic communities, with low temperatures being characterised by an increased predominance of Antarctic communities and vice versa. The differentiation between sub-Antarctic and Antarctic waters, and their respective communities, was particularly pronounced when the SAF and APF were in close proximity to the islands. Surface salinity and sounding had limited effect on community structure. The affect of sounding was intrinsically related to zooplankton interaction with the island ecosystem. Predation by the islands' land based predators and benthic fish appears to decrease zooplankton biomass over the island shelf, particularly the macrozooplankton size fraction. However, this may only be an important factor under conditions of water retention when replenishment of zooplankton stocks is low. The low densities of many macrozooplankton species, and other deep migrators, on the island shelf may be due to their limited advection onto shallow topography. By contrast, there are indications that zooplankton species occurring at shallower depths may be concentrated in the inter-island region by mesoscale flow patterns. Analysis of the population structure of the copepod Calanus simillimus showed that this species occurred at different stages in its life cycle during different years, even though sampling took place in the same calendar months, indicating that there was inter-annual variation in the timing of the biological season. Differences in the population structure of species, and consequently their contribution to abundance and biomass, may therefore have been an important contributor to inter-annual variation in community structure. Evidence is provided for a long-term trend of southward movement of the SAF. This may have a significant affect on the PEI ecosystem, increasing the proportion of allochthonous input and altering the tropho-dynamics of the island ecosystem
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Production ecology of bryophyte vegetation at Marion Island (Sub-Antarctic)Russell, Shaun January 1996 (has links)
The world's tundra regions can be considered as the last unexploited terrestrial biome on the earth's surface. Bryophytes contribute significantly to primary production and nutrient cycling in tundra habitats but received considerably less attention than the vascular plants during research for the Tundra Biome Project of the International Biological Programme in the 1970s. The IBP synthesis recognised this and called for more bryophyte production data and improved methodology in future studies. The synthesis also identitied the need for more information on within-site variability, energy/chlorophyll relationships and mineral nutrient studies where tundra bryophyte production patterns are concerned. Marion Island in the sub-Antarctic has an oceanic "tundra" type of vegetation, and the island offers the characteristics of an ideal "natural laboratory" for conducting fundamental ecological research particularly in the field of primary production and energy flow. Studies at Marion Island paralleled those of the IBP but also concentrated on the vascular component of the vegetation. Bryophytes contribute up to 60% of the biomass and 90% of plant cover in the mires that dominate the well-vegetated coastal plain of Marion Island. Following the termination of IBP research therefore it was decided to extend these studies during the 1980s by measuring growth and characterising the major factors influencing growth patterns in Marion Island bryophytes. In this thesis information is given on the physical and biotic environment of Marion Island. Data is presented on the cover, biomass, seasonal and annual production values, and turn-over rates (decomposition) of 15 bryophyte species found across the full range of habit at types at Marion Island. An analysis is also made of growth-associated variables viz. soils, climate, plant energy, chlorophyll. water and mineral nutrient contents. Production was found to be related broadly to moisture-related variables, overlain by nutrient factors in some instances. Higher absolute production figures were obtained than at other tundra sites and interesting phenological data are discussed. The results suggest that decomposition is controlled mainly by tissue degradability factors and that decomposition is more significant than production in controlling biomass accumulation. A model is given for production/decomposition patterns across the range of habitat conditions at Marion Island. Several growth measurement techniques were tested and recommendations are made concerning methodology for future bryophyte production studies. By reference to ecological data collected during the study.
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An assessment of needle ice, snowfall and the zero-curtain effect and its relationship with soil frost dynamics on sub-Antartic Marion IslandZilindile, Mphumzi Brooklyn January 2013 (has links)
This study aims to uncover the synoptic weather circulation pattern which is associated with the occurrence of needle ice, snowfall and the zero-curtain effect. The method of study was done through an intensive ground climate measurement campaign from April 2008 to May 2009 with a temperature logger installed throughout the recording period. Results from data analyses indicate that the complex changes in climate parameters may lead to an equally complex response in terms of spatial soil frost dynamics and its direct and indirect effects on soil sediment displacement and ecosystem dynamics. Field evidence in the study suggests that on Marion Island needle ice developed in temperatures as high as -0.2 ºC in strong winds. This confirms that the wet environment of Marion Island, which is dominated by diurnal soil frost is fundamentally different from seasonal frost and permafrost environments. The scoria material is susceptible to needle ice growth and the compacted soil alters the micro-climatology of the affected area making it more susceptible to the formation of needle ice. Soil moisture for needle ice formation and growth is provided by the misty conditions associated with the advent of the cold front (pre-cyclonic). Furthermore, observations of needle ice on Marion show that needles are mostly clear with no sediment inclusion. This is indicative of needle ice formation that has not been interrupted by a shortage of moisture. The zero-curtain effect on Marion Island can occur either as a response to the thawing of the soil after the seasonal freeze. The synoptic assessment of snowfall on Marion Island indicates that; snowfall is associated with the passage of a cold front linked to a strong meridional system of low pressure just south of the island.
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Comparative phylogeographic patterns among selected indigenous and introduced Collembola on Marion IslandMyburgh, Marike 04 1900 (has links)
Thesis (MSc)--University of Stellenbosch, 2006. / ENGLISH ABSTRACT: Marion Island is situated approximately 2600 km southeast of Cape Town and is the larger of
the two islands that comprise the Prince Edward Island group. During past glaciation events,
Marion was partially covered by ice with fauna and flora confined to isolated refugia across
the island. As a result of these long-term isolation events, it is postulated that species
predating these glaciation events might show geographic partitioning of genetic variation.
Subsequently, the majority of Southern Oceanic islands have a history of sealing activities
with vessels frequenting various islands in their hunt for seals. These combined visits to
several islands could have facilitated the introduction of alien species, or the reintroduction of
species already present on islands. These incidents, combined with more recent scientific
voyages, have led to the establishment of several exotic species on Marion Island. Two
indigenous Collembola species (Cryptopygus antarcticus (Willem, 1901) and Tullbergia
bisetosa (Börner, 1903)) were chosen as model species to investigate the possible effects of
glaciation on the spatial distribution of genetic variation on indigenous species. Given the
negative impact that alien taxa have on indigenous species and ecosystems, the
phylogeographic population structure of the recently introduced Isotomurus cf. palustris
(Müller, 1876) was determined and compared to those described for the two indigenous
species. To address these questions, two mitochondrial DNA genes were targeted:
cytochrome oxidase subunit I (COI) and cytochrome oxidase subunit II (COII). These genes
were sequenced (GENBANK accession numbers DQ147289-DQ147558) and analysed using,
amongst others, AMOVA (Analysis of Molecular Variance), SAMOVA (Spatial Analysis of
Molecular Variance) and NCA (Nested Clade Analysis). As expected, the two indigenous
species showed distinct signs of population expansion, whilst the recently introduced species
exhibits little genetic variance across its range. The life histories of species have an influence
on their resultant genetic signature; therefore life history parameters were incorporated to
explain differences in the phylogeographic patterns observed for these three species. / AFRIKAANSE OPSOMMING: Marion Eiland is die groter van twee eilande wat die Prins Edward eilandgroep vorm,
ongeveer 2600 km suid-oos vanaf Kaapstad. Gedurende glasiasie episodes in die verlede, was
Marion gedeeltelik met ys bedek en fauna en flora was geisoleer in klein gedeeltes van die
eiland wat beskut was. As gevolg van hierdie langtermyn isolasie word daar voorgestel dat
spesies wat op die eiland was voor hierdie gebeurtenisse plaasgevind het, ‘n geografiese
verdeling van genetiese variasie sal toon. Sedertdien het die meerderheid van die eilande in
die Suidelike Oseaan ook ‘n geskiedenis van skepe wat op een of meer van die eilande
aangedoen het in die jag op robbe. Hierdie besoeke deur die robjagters aan die eilande het
meegebring dat daar eksotiese spesies op die eiland aangekom het of dat spesies wat reeds op
die eiland voorgekom het, opnuut daar geland het. Hierdie, tesame met die onlangse
wetenskaplike reise na Marion Eiland, het daartoe gelei dat baie eksotiese spesies ingevoer is
na die eiland. Twee inheemse spesies, naamlik Cryptopygus antarcticus (Willem, 1901) en
Tullbergia bisetosa (Börner, 1903) is gekies om as model spesies te dien om die moontlike
gevolge van glasiasie op die geografiese verspreiding van genetiese variasie te toets. In ag
geneem die moontlike negatiewe impak wat eksotiese spesies op die inheemse spesies mag
hê, is die filogeografie van ‘n uitheemse spesie, Isotomurus cf. palustris (Müller, 1876) ook
bepaal en vergelyk met díe van die bogenoemde inheemse spesies. Dit is gedoen deur twee
gene, sitokroom oksidase I (COI) en sitokroom oksidase II (COII) te analiseer. Hierdie gene
se basispaarvolgordes is bepaal (GENBANK toetreenommers DQ147289-DQ147558), en
hulle is ge-analiseer deur gebruik te maak van AMOVA (Analise van Molekulêre Variasie),
SAMOVA (Ruimtelike Analises van Molekulêre Variasie) en NCA
(geseteldegroepsanalises). Net soos verwag, het die twee inheemse spesies albei duidelike
tekens getoon van ‘n bevolkingstoename terwyl die uitheemse spesie amper geen variasie oor
sy verspreidingsgebied getoon het nie. Die lewensstyle van spesies het ‘n beduidende invloed
op hulle genetiese bevolkingstruktuur. As sulks is díe in ag geneem om die verskille tussen
hulle genetiese strukture te verduidelik.
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Physiological plasticity in arthropods from Marion Island : indigenous and alien speciesSlabber, Sarette 12 1900 (has links)
Thesis (PhD)--University of Stellenbosch, 2005. / ENGLISH ABSTRACT: Climate sets range limits in many taxa, and as climate changes, the ranges that plants and
animals occupy are altered. The responses of species to climate change involve either
migration or local adaptation. An investigation of the local physiological adaptation
shown by indigenous and alien arthropods to temperature acclimation formed the primary
focus of this study. Increased environmental temperatures favour the establishment of
alien species on Southern Ocean Islands. The first records of Porce/lio scaber Latreille,
1804 (Isopoda, Porcellionidae) and an Aphidius wasp species from Marion Island were
documented here. The alien wasp was discovered in 2003 and had a current known
distribution along the east coast of Marion Island. Both isopods and wasps were
reproducing successfully on Marion Island. The wasp species is an aphid parasitoid and
had been found mummifying the alien aphid Rhopalosiphum padi. These introductions
highlighted the ongoing conflict between use and conservation on the Southern Ocean
Islands.
Despite considerable work on the upper and lower lethal limits of insects, several major
taxa have received little attention. Here this issue was addressed and the lower and upper
thermal tolerances and cold hardiness strategy of Antarciopsocus jeanneli Badonnel
(Psocoptera: Elipsocidae) from sub-Antarctic Marion Island was investigated. A.
jeanneli is freeze intolerant, and more specifically, moderately chill tolerant. Field fresh
A. jeanne li had a mean supercooling point (SCP) of -11.1oC, whereas LTSO was -7.7°C,
indicating pre-freeze mortality. A. jeanneli responded to acclimation: mean SCP
increased from -IS.8°C at a treatment temperature ofO°C, to -7.3°C at ISOC.
Investigations of the responses to acclimation of upper and lower lethal limits and limits
to activity in insects have focussed primarily on Drosophila. Halmaeusa atriceps
(Staphylinidae) was examined for thermal tolerance responses to acclimation, and
seasonal acclimatization. In summer and winter, lower lethal temperatures of adults and
larvae were c. -7.6 ± 0.03 and -11.1 ± 0.06 °C, respectively. Supercooling points (SCPs)
were more variable, with winter SCPs of -S.4 ± 0.4 °C in larvae and -6.3 ± 0.8 °C in adults. The species appeared to be chill susceptible in summer and moderately freeze
tolerant in winter, thus showing seasonal acclimatization. Critical thermal minima varied
between -3.6 ± 0.2 and -0.6 ± 0.2 °C in larvae, and from -4.1 ± 0.1 to -0.8 ± 0.2 °C in
adults. These findings were in keeping with the general pattern found in insects, although
this species differed in several respects from others found on Marion Island.
In this study the differential responses of indigenous and invasive springtails to
temperature were explicitly examined in the context of the beneficial acclimation
hypothesis (BAH) and its alternatives. In particular, the thermal acclimation responses of
desiccation resistance, supercooling ability, lower and upper thermal limits were
compared. Invasive springtails (Pogonognathellus jlavescens, Isotomurus palustris and
Ceratophysella denticulata) did not display greater phenotypic flexibility than indigenous
springtails (Cryptopygus antarcticus and Tullbergia bisetosa), but did perform better
under high temperature conditions. Indigenous species, however, performed better under
low temperature conditions. In most cases the BAH was not supported, or could not be
distinguished from its alternatives. The prediction that invasive species will outperform
indigenous species as climates on Southern Ocean Islands warm was supported.
Because temperature plays such a large role in the distribution, abundance and
physiological tolerances of invertebrates, microhabitat temperatures along an altitudinal
gradient (0 to 800 m above sea level (asi)) were investigated over a two-year period on
Marion Island. Mean microhabitat temperatures were comparable to those from previous
studies for Southern Ocean Islands, and declined with increasing altitude. The 800 m asl
site had the most severe microclimate (highest absolute maximum, lowest absolute
minimum and the highest frequency of freeze-thaw cycles). Year one was substantially
colder than year two, indicating that interannual variation in microclimate conditions
could be responsible for substantial mortality amongst. invertebrate populations. Indeed,
indigenous species were best able to tolerate the high incidence of low temperatures at
high altitudes, whereas alien species appeared to be confined to lower altitudinal sites on
Marion Island, possibly as a consequence of extreme low temperatures at higher altitudes. / AFRIKAANSE OPSOMMING: Klimaat is een van die grootste faktore wat die verpreiding en digthede van dier en
plantspesies bepaal. Soos wat klimaatsverandering plaasvind, kan spesies migreer om
stresvolle klimaatstoestande te vermy, of hulle kan aanpas by plaaslike omstandighede.
Dit is die laasgenoemde opsie wat in hierdie tesis ondersoek was. Die opsporing van
Porcellio scaber Latreille, 1804 (Isopoda Porcellionidae) en 'n Aphidius wesp van
Marion Eiland word hier aangeteken. Die huidige verspreiding van houtluise in die
omgewing van die Navorsingstasie dui daarop dat hulle die eiland waarskynlik vanaf
Kaapstad in bou-materiaal bereik het. Die wesp is gedurende 2003 ontdek en is tans
versprei langs die oostelike kuslyn van Marion Eiland. Beide hierdie spesies plant
suksesvol voort op Marion Eiland. Die wesp spesie parasiteer die uitheemse plantluis
Rhopalosiphum padi. Uitheemse muise en die inheemse kleinskedebek weier tot dusver
om P. scaber te eet. Die ontdekking van twee nuwe uitheemse spesies dui weereens op
die konflik tussen bewaring en benutting van die Suidsee Eilande.
Ten spyte daarvan dat aansienlike aandag gewy is aan die hoë- en lae temperatuur
toleransies van insekte, is daar talle taksa wat selde nagevors word. Dié toleransies is dus
nagevors vir die boekluis Antarctopsocus jeanneli Badennel (Psocoptera: Elipsocidae)
van Marion Eiland. Die spesie is vries vermydend, en meer spesifiek, matig
verkoelingsbestand. Veldvars A. jeanneli het 'n gemiddelde superverkoelingspunt van -
11.1 °C gehad, en letale temperature (LTSO) van -7.7 °C, wat aandui dat individue vrek
voordat hulle vnes, Hierdie spesie reageer op akklimasie: gemiddelde
superverkoelingspunt het toegeneem van -15.8 °C na akklimasie by 0 °C tot -7.3 °C na
akklimasie by 15 oe.
Die effek van akklimasie op temperatuur toleransie in insekte het dusver meestalop
Drosophila gefokus. Hier vors ons die effek van akklimasie op die temperatuur toleransie
van Halmaeusa atriceps (Styphylynidae) na. In die somer en winter was die lae letale
temperature van kewers en larwes onderskeidelik -7.6 ± 0.03 en -11.1 ± 0.06 °C.
Superverkoelingspunte (SVP) het meer gevarieer, met SVP van -5.4 ± 0.4 °C in larwes en -6.3 ± 0.8 oe in kewers. Die spesie IS verkoelingsvatbaar in die somer en matig
vriesbestand in die winter, wat dui op akklimatisasie in hierdie spesie. Kritiese termale
minima het tussen -3.6 ± 0.2 en -0.6 ± 0.2 oe in larwes, en tussen -4.1 ± 0.1 tot -0.8 ± 0.2
oe in kewers gewissel. Hierdie spesie blyk dieselfde fisiologiese tendense wat in insekte
te vinde is uit te beeld, maar verskil in verskeie opsigte van ander insekte op Marion
Eiland.
Hierdie studie het ook die verskillende reaksies van inheemse en uitheemse springsterte
met betrekking tot temperatuur akklimasie bestudeer. Die voordelige-akklimasie hipotese
en sy alternatiewe hipoteses is in terme van akklimasiereaksies tot desikkasie weerstand,
superverkoeling en lae- en hoë temperatuur bestandheid in Marion Eiland springsterte
getoets. Die uitheemse springsterte (Pogonognathellus jlavescens, Isotomurus cf palustris
en Ceratophysella denticulata) het nie beter fenotipiese plastisiteit getoon as die
inheemse spesies (Cryptopygus antarcticus en Tullbergia bisetosa) nie. Die inheemse
spesies het egter beter gevaar onder lae-temperatuur toestande. Die voordeligeakklimasie
hipotese ontvang nie veelondersteuning in die huidige studie nie, maar kon in
sommige gevalle nie van die alternatiewe hipoteses onderskei word nie.
Klimaatsverandering mag uitheemse spesies bevoordeel.
Die rol wat temperatuur in die verspreiding en fisiologiese toleransies van invertebrate
speel word lank reeds waardeer. Daarom vors hierdie studie die mikrohabitat temperature
teen 'n gradient tussen seespieël en 800 m bo seespieël (m bs) oor 'n tydperk van twee
jaar op Marion Eiland na. Gemiddelde temperature is vergelykbaar met die van vorige
studies op Marion Eiland, en neem af soos wat hoogte bo seespieël toeneem. Die 800 m
bs studie-gebied het die mees stresvolle mikrohabitat-toestande ondervind (die hoogste
absolute maksimum, laagste absolute minimum temperature, en die meeste vries-ontdooi
siklusse). Inheemse spesies op Marion Eiland toon hoër.toleransies tot lae temperature as
uiheemse spesies, laasgenoemde kom slegs voor by laer hoogtes bo seespieël, waar
ekstreme ternperatuur-toestande dalk minder volop is. Klimaatsverwarming mag egter tot
'n toename in ekstreme weerstoestande lei op Marion Eiland, wat aansienlike mortaliteit
in invertebraat populasies kan veroorsaak.
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An archaeological study of the Solglimt shipwreck survivor camp on sub-Antarctic Marion IslandVan Niekerk, Tara Rae 10 1900 (has links)
In a tale of survival, dubbed that of the “South Seas Crusoes”, a group of men overcame the odds by setting up camp on a deserted volcanic sub-Antarctic island in the middle of the Southern Indian Ocean. This group of men formed the crew of the Norwegian SS Solglimt sealing vessel which had wrecked on the sub-Antarctic Marion Island in October 1908. More than a century later remains of the shipwreck of the SS Solglimt can still be found lying exposed below the water in the bay of Ships Cove. In the valley north of the bay, the remnants of the shipwreck survivor camp associated with the wreck holds hidden stories of a terrestrial maritime landscape formed out of tragedy and the need to survive. It is mainly the remains of this camp which forms the basis of the research and discussion for this dissertation. The following study is not only an attempt to add to our knowledge and understanding of the archaeological remains on Marion Island, it is also to add to an existing body of knowledge involving shipwreck survivor camps.
The remains on Marion Island have produced the perfect opportunity to fill gaps within the discipline of Maritime Archaeology, especially in South Africa where too often emphasis is placed on shipwreck studies and not enough on the events taking place before or after the crisis event. The following dissertation uses archaeological techniques alongside historical documents as a way to better understand the socio-cultural behaviour of survivors during events of disaster, isolation and the necessity to survive. The study will be used as a comparison to similar studies around the world and hopes to add to an existing body of knowledge involving survivor camps and disaster-response studies from an archaeological and anthropological perspective. / Anthropology and Archaeology / M.A. (Archaeology)
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