Global ETD Search

311	Influence of Mate Quality on Reproductive Decisions in a Fish with Paternal Care Kolm, Niclas January 2003 (has links) Female reproductive decisions have been suggested to be highly influenced by mate quality. I have studied whether offspring quality may be adjusted by females to match the attractiveness of males and how strong control females have over their reproductive investment focusing on egg size. This was done in the Banggai cardinalfish (Pterapogon kauderni), a sex-role reversed obligate paternal mouthbrooder where males invest heavily into reproduction. As this species is suitable for both laboratory experiments and field studies it is an ideal candidate for the study of reproductive investment. Mating was size-assortative and both males and females benefited from pairing with large partners. However, male size determined the reproductive output of a pair. Females courted large males more intensively and produced larger, but not fewer eggs when mated to large males as compared to small males. Further, this matching of egg size to mate attractiveness may be fast. Female courtship behaviours contained honest information regarding both clutch weight and egg maturity, traits that may be highly important for male mate choice. Surprisingly, males played an important part in territory defence suggesting relatively equal sex-roles in this species. Also, this species showed stable group structures which may be important for the evolution of female plasticity in reproductive investment due to high variance in quality of available mates. This thesis suggest that females have a remarkable control over their reproductive investments and that male quality may be highly influential on reproductive decisions regarding offspring quality. Furthermore, it suggest that sexual selection may have strong effects on the evolution of egg size and parental care on a whole. Ecology sexual selection differential allocation evolution of egg size and parental care Ekologi Terrestisk, limnisk och marin ekologi
312	Kleptoplasty in Dinophysis spp : Ecological role and evolutionary implications Minnhagen, Susanna January 2010 (has links) This thesis deals with the question of whether planktonic protits of the genus Dinophysis have permanent plastids (=chloroplasts) or practice kleptoplasty, i.e. acquire plastids via predation on other microorganisms. Sequencing the plastid 16S rDNA of Dinophysis spp. collected from 4 different geographical regions unveiled two different plastid genotypes within this genera: one that was found at all locations investigated, identical to that of the free-living cryptophyte Teleaulax amphioxeia, and another found only in the Greenland Sea, closely related to that of the cryptophyte Geminigera cryophila. Both types were found within the species D. acuminata. These findings imply that the plastids in Dinophysis spp. were not inherited from a common ancestor, but acquired from feeding. By using flow cytometry in combination with an acidotrophic probe, it was shown that 71 % of the cells in a D. norvegica population in the aphotic zone of the Baltic Sea had food-vacuoles. Dinophysis used to be regarded as a primarily phototrophic organism, and this was a higher proportion of cells with food-vacuoles than reported earlier. To further study if Dinophysis needs constant refill of new plastids from the environment, a new method combining flow-cytometry and quantitative real-time PCR was developed to compare the levels of nuclear and plastid DNA in different phases of the cell-cycle. Results showed that plastid acquisition in Dinophysis was uncoupled with the cell-cycle, which is different than the pattern seen in microalgal species with permanent plastids. Furthermore, when quantitative real-time PCR combined with flow-cytometry was used to follow D. caudata cultures during a 65 days starvation/feeding experiment, the cells first went through a steady decrease in plastid DNA during starvation. In contrast, after feeding on the ciliate Myrionecta rubra, plastid DNA in starved cells increased 7-fold, thereby directly revealing the kleptoplastic behavior. The main conclusion from this thesis is that Dinophysis cells are actively taking up kleptoplastids from the ciliates on which they feed, and that kleptoplasty is an important key to understand Dinophysis ecology. Part of this thesis work has also been dedicated to the application and optimization of new methods, and it shows how quantitative real-time PCR, flow cytometry and molecular methods in different combinations can be used as powerful tools for the study of plankton ecology. Dinophysis kleptoplastid real-time PCR 16S rRNA plastid evolution Baltic Sea Flow cytometry Marine ecology Marin ekologi
313	Marine dissolved organic phosphorus composition: insights from samples recovered using combined electrodialysis/reverse osmosis Jackson, Cindy 01 July 2009 (has links) The dominant organic phosphorus compound classes were characterized in marine samples using a new, high recovery method for isolating and concentrating bulk dissolved organic matter (DOM) called combined electrodialysis+reverse osmosis (ED/RO). In contrast to earlier studies which use ultrafiltration (UF) to recover only the high molecular weight DOM, ED/RO is capable of isolating both low molecular weight (LMW) and high molecular weight (HMW) DOM. Samples were collected from a broad range of marine environments: along a transect incorporating coastal and offshore waters off the Southeastern United States, in Effingham Inlet, a Pacific fjord located on Vancouver Island, British Columbia and in the Amundsen Sea, Antarctica. Results from phosphorus nuclear magnetic resonance (31P NMR) analysis reveals a similar abundance of P compound classes between samples, phosphate esters (80-85%), phosphonates (5-10%) and polyphosphates (8-13%). These samples contain significantly higher proportions of polyphosphate P and P esters and lower proportions of phosphonates than measured in previous studies using the UF method. The much higher levels of polyphosphate detected in our samples suggests that polyphosphate is present mainly in the LMW DOM fraction. Polyphosphates in DOM may be present as (or derived from) dissolved nucleotides or organismal polyphosphate bodies, or both. Low molecular weight P esters are likely composed of phosphoamino acids and small carbohydrates, like simple sugar phosphates and/or dissolved nucleotides. Phosphonates in DOM are more prevalent as HMW phosphonate compounds, which suggests that LMW phosphonates are more readily utilized in marine ecosystems. Overall, the investigation of DOM across a size spectrum that includes both the HMW and the LMW fractions reveals a new picture of phosphorus distribution, cycling and bioavailability. Effingham Inlet Antarctica Amundsen Sea Marine NMR Electrodialysis Phosphorus Polyphosphate Organophosphorus compounds Marine ecology Electrodialysis Reverse osmosis
314	Sex and symbionts : New discoveries in local and regional patterns of coral ecology and reproduction / SINH SẢN VÀ SINH VẬT CỘNG SINH : Khám phá mới về đặc điểm địa phương và khu vực trong sinh thái học và sự sinh sản của san hô Hellström, Micaela January 2011 (has links) Coral reefs belong to the most diverse and the most threatened ecosystems on earth. Anthropogenic stressors and climate change have led to mortalities at levels unprecedented in modern times. The aims of this thesis are to investigate aspects of the corals’ ability to reproduce, disperse, adapt and survive. Papers I-III study reproduction in a common soft coral species, Sarcophyton elegans, with previously unknown reproductive modes. Paper IV investigates genetic distribution of coral-symbiont associations in Galaxea fascicularis focusing on adaptation to the environment along the coastline of Vietnam. Sarcophyton elegans is a gonochoric broadcast spawner with a 1:1 sex ratio. Reproduction is strictly size dependent. Oogenesis takes 19-24 months, with a new cycle commencing every year. Spermatogenesis takes 10-12 months. The majority of gametes were released during the annual austral mass spawning event after full moon in November, but spawning also occur between August and February. The polyps at the outer edge of the colonies released their gametes first, followed by polyps situated closer to the center during subsequent months. Colonies upstream in the prevailing current spawn earlier than those downstream. The colonies were arranged in clusters of alternating males and females, which spawned simultaneously and were of the same genotype. Fission and buddying is a common mode to expand locally. Additionally, females undergoing fission divided into the most fecund size classes. The G. fascicularis and their associated symbionts were not genetically coupled to each other but to environmental factors. The host displayed an inshore-offshore zonation, with higher diversity offshore. The D1a symbiont exhibited an inshore- offshore zonation. In contrast; the 5 different C symbiont types showed a latitudinal distribution gradient, which shifted in dominance north to south. The study highlights the importance of protecting resilient coral and algal genotypes in stressed areas and the need to understand reproductive modes for coral conservation. / Các rạn san hô là một trong những hệ sinh thái có tính đa dạng và bị đe dọa cao nhất trên trái đất. Các áp lực từ con người và nhiệt độ nước biển tăng (SSTs) đã gây ra hiện tượng “tẩy trắng” gây chết san hô ở mức độ cao chưa từng thấy trong thời điểm hiện tại. Mục tiêu của nghiên cứu này là tìm hiểu khả năng của san hô trong thích nghi, phân tán và sống sót nhằm duy trì quần thể. Bài báo số II-III là những nghiên cứu đầu tiên về đặc điểm sinh sản của loài san hô mềm phổ biến, Sarcophyton elegan tại Australia. Bài báo số IV nghiên cứu về phân bố nguồn gen của tảo cộng sinh trong loài san hô Galaxea fascicularis, tập trung vào sự thích nghi với môi trường dọc theo vùng biển Việt Nam, khu vực bị ô nhiễm từ lục địa. Sarcophyton elegans được biết với đặc điểm sinh sản cả vô tính và hữu tính. Loài này là loài sinh sản bằng cách phân tán trứng, với tỷ lệ giới tính là 1:1 và sự sinh sản hữu tính bị khống chế nghiêm ngặt bởi kích cỡ của tập đoàn (Bài báo II, phần phương pháp của Bài báo I). Quá trình tạo trứng kéo dài từ 19 đến 24 tháng với chu kỳ sinh sản lặp lại hàng năm, và sự sinh tinh kéo dài từ 10 đến 12 tháng. Phần lớn giao tử được giải phóng trong một thời gian ngắn sau ngày trăng tròn của tháng 11, nhưng giao tử vẫn được giải phóng trong ngày trăng tròn của các tháng từ tháng 8 đến tháng 1 năm sau. Các polyp autozooid nằm phía ngoài của tập đoàn giải phóng giao tử trước, sau đó là các polyp nằm gần lõi trong các tháng tiếp theo. Các tập đoàn ngược lên trong dòng chảy thịnh hành đẻ trứng sớm hơn các tập đoàn xuôi dòng khoảng một tháng (Bài báo II). Các tập đoàn được sắp xếp thành từng đám từ 7 đến hàng trăm tập đoàn trong mỗi nhóm, bao gồm cả đực và cái. Các tập đoàn trong cùng một nhóm sinh sản cùng một thời điểm. (Bài báo II) và mỗi nhóm có cùng một kiểu di truyền (Bài báo III) có đầy đủ 13 (có thể là 22) kiểu di truyền khác nhau. Sự phân đôi và kết đôi phụ thuộc hoàn toàn vào kích thước và có lẽ là phương thức mở rộng phổ biến nhất. Sự phân đôi phải mất 2 năm hoặc hơn mới hoàn thành. Thêm vào đó, con cái trải qua quá trình phân đôi thành kích cỡ có khả năng sinh sản cao nhất (Bài báo III). Có 6 nhóm haplotypes (mtDNA) của loài G. fascicularis và tảo cộng sinh Symbiodinium (ITS2 rDNA) không đóng cặp với nhau nhưng lại gắn với các yếu tố môi trường, có thể như kết quả của phương thức sinh sản của vật chủ (Bài báo IV). Vật chủ có sự phân vùng rõ rệt giữa gần bờ và xa bờ, với sự đa dạng cao hơn hẳn của các rạn xa bờ so với các rạn gần bờ, khu vực thường xuyên bị độ đục, ô nhiễm và lắng đọng trầm tích tác động. Tảo cộng sinh Symbiodinium D1a ITS2 điểm hình của sự phân vùng gần bờ và xa bờ. Ngược lại, 5 loại C khác lại có sự phân vùng theo vĩ tuyến, với sự tăng lên rõ rệt theo chiều Bắc-Nam, cùng với sự ổn định SST và sự tăng lên của các SST. Nghiên cứu này đã chỉ rõ tầm quan trọng trong bảo vệ các loài san hô và tảo biển bản địa tại các khu vực bị đe dọa (Bài báo IV) và sự cần thiết phải hiểu các phương thức sinh sản (Bài báo II-III) và các thông số môi trường trong việc xác định mức độ đa dạn sinh học và sự hấp thụ của sinh vật cộng sinh trong san hô cứng và san hô mềm. / At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 3: Manuscript. Paper 4: Manuscript. Indo-Pacific S. elegans G. fascicularis Symbiodinium size reproduction allozymes ITS2 mtDNA geography environment Marine ecology Marin ekologi
315	Färgval hos blomkrabbspindeln (Misumena vatia) med och utan konkurrens Kangasniemi, Sanna January 2011 (has links) The colour choice of spiders and the effects of competition on this phenomenon were examined in the laboratory using the sit-and-wait predator goldenrod crab spider (Misumena vatia, (Thomisidae)). This species can be both white and yellow (could also change colour) and it was here examined whether individuals preferred to sit on flowers which has the same colouration as their bodies. I found that M.vatia showed preference for flowers that matched their own body colour, but when competition was introduced this preference disappear. It seems, however, that position is a factor that can influences the substrate decisions of M. vatia, where the edge of the flower is preferred. Spindlar färgval konkurrens kamouflage Biology Biologi Terrestrisk, limnisk och marin ekologi Ethology and behavioural ecology Etologi och beteendeekologi
316	Muddring i Ireån : indirekta effekter på bottenfaunan nedströms Andersson, Martin Gustav Ingemar January 2010 (has links) This research aims to investigate the effects that dredging may have on benthic fauna. The dredging took place in the stream Ireån on northern Gotland during the early summer 2010. My area of research was taking place in a scenic area downstream in Ireån close to the Baltic Sea. I chose this area due to the dredging that started just upstream of this area and continued further upstream. Thus it is not the direct impact of the dredging that is the focus for this paper but the side-effect the dredging may have on the area downstream. In this research I used the M42-method and BQI- index in order to evaluate the results. The effects on the dredging were weaker than expected, with only minor changes occurring within the benthic fauna (BQI-value before dredging: 3.35, BQI-value after dredging: 3.51). Muddring Rinnande vatten Miljöeffekter Bottenfauna Biology Biologi Terrestrisk, limnisk och marin ekologi Freshwater ecology Limnisk ekologi
317	Responses of Algal Epifauna to pulsed and chronic contamination of temperate Algal beds. Roberts, David A, School of Biological, Earth & Environmental Sciences, UNSW January 2008 (has links) Contaminants may affect marine organisms through various pathways with impacts evident across a variety of spatial and temporal scales. Organisms may encounter short pulsed exposures which contaminate surface waters for hours to days, or more persistent but patchy contamination of benthic habitats throughout their entire life-cycle. This thesis examines the responses of epifauna associated with macroalgae to a pulsed exposure of contaminants (storm-water input) and to chronic contamination via metal accumulation within temperate algal beds. The effects of storm water were monitored during a two-year survey of Sydney Harbour which sampled epifauna before and after heavy rainfall. Epifaunal assemblages declined throughout the harbour following storm events but for the most part these declines were not attributable to storm-water runoff. However, transient (&lt 4 d) and localized impacts of storm water upon physico-chemical characteristics of recipient water and some epifaunal groups were identified around storm drains. A novel field dosing technique tested the relative importance of freshwater and associated metals as causative agents of behavioural avoidance and direct mortality responses. Strong avoidance of storm-water plumes was found which could be entirely explained by freshwater inundation, with no additional effects of metals. No direct mortality was observed following brief exposures. Contaminants introduced by storm water may accumulate within the tissues of macroalgae and potentially pose persistent threats to epifauna. Colonisation of epifauna was reduced on algae with enhanced copper levels, and the nesting behaviour, feeding and survival of an abundant amphipod were all negatively affected by copper load. Subsequent field surveys identified sufficient copper, lead and zinc contamination in Sydney Harbour algal beds to pose direct toxic threats to epifauna. The abundance of herbivorous amphipods correlated negatively with the copper content of a common algal species. However, differences in metal accumulation between algal species resulted in spatially variable levels of contamination. Small-scale patchiness of contaminants within these landscapes may allow populations of mobile species to persist if contaminated hosts are avoided. In summary, epifaunal assemblages appeared resilient to storm-water pulses. Recovery of affected groups was rapid and large fluctuations in abundance appear to be part of the natural flux of epifaunal communities. In contrast, assemblages responded strongly to algal-bound contaminants and this has emerged as an important pathway of contaminant exposure and impact within algal habitats. Marine ecology Marine pollution Water -- Pollution Marine algae Toxicity testing Chronic toxicity testing Copper -- Toxicity testing Metals -- Toxicology
318	Genetic and environmental interplay during development: Variation at metamorphosis in a natural population of the tropical abalone, Haliotis asinina (Linnaeus) Elizabeth Amy Williams Unknown Date (has links) Regulation of transcription is an important molecular mechanism through which organisms can respond to environmental change. Environmentally-related transcriptional variation can play a significant role in evolution, potentially acting as a mechanism for the formation of new adaptive phenotypes. Organisms are most sensitive to the influence of external environmental variation during development, yet very few studies have explored environmentally-related transcriptional variation in early life history stages. Marine invertebrate metamorphosis, where intimate larval-environment interactions trigger settlement onto the benthos and a drastic morphological shift from larval to adult form, exemplifies the influence of environment on development. Variation in both the timing of metamorphosis and the form of specific metamorphic inductive cues, even at an intraspecific level, suggests that larvae have molecular mechanisms for surviving settlement and metamorphosis in a range of environmental conditions. The extent of transcriptional variation at metamorphosis remains largely unknown due to limited information on both the natural inductive cues and the molecular mechanisms directing metamorphosis in marine invertebrates. Contributing to current understanding of the interplay between genes, environment and phenotype during development, I explored molecular and ecological aspects of metamorphosis in a marine invertebrate, the tropical abalone Haliotis asinina. First, I employed cDNA microarray methods to identify candidate genes and document widespread transcriptional changes occurring in Haliotis asinina larvae during larval development and metamorphosis. Microarray results reveal that as the abalone veliger larva matures, it requires coordinated regulation of temporally different gene batteries involved in a wide range of physiological and developmental processes associated with the transition to a new, benthic habitat. All candidate genes showed changes in expression following exposure of larvae to coralline algae, an external inductive cue, demonstrating the remarkable effect of environment on transcription during marine invertebrate metamorphosis. 144 genes, ~40% of which are novel, were identified as candidates for a role in H. asinina metamorphosis. This high proportion of novel genes indicates that the conserved signaling pathways operating in marine invertebrate metamorphosis likely regulate the expression of taxon-specific genes. The relationship between abalone larvae and their natural inductive cue, coralline algae, is species-specific. To characterize the metamorphic cue preferences of Haliotis asinina larvae from Heron Island Reef, Australia, I documented larval induction response to a number of different coralline algae species commonly found in adult H. asinina habitat. H. asinina larvae exhibit highly specific responses to induction of metamorphosis by different coralline algae species, with 0 – 100% metamorphosis by 48 hours post induction depending on algae species. Unlike any other abalone species studied, the most effective inducers of Heron Island Reef H. asinina are articulated corallines of the genus Amphiroa. Comparing the response of different larval families to select species of coralline algae indicated that coralline algae community composition is likely to significantly impact H. asinina population structure. Additionally, I compared larval response to dead and live coralline algae to show that induction specificity is driven by chemical, not physical, properties. Characterization of the surface cell biomarkers of three different coralline algae species indicates that algal biomolecular composition relates to variations in H. asinina induction response. To explore the influence of variation in larval induction environment, I compared transcription patterns of 17 metamorphosis-related genes in Haliotis asinina larvae induced by three different species of coralline algae. H. asinina post-induction gene expression profiles vary according to the species of coralline algae inducer. This transcriptional variation occurs in genes with diverse functions and spatial expression patterns, highlighting the global nature of the impact of benthic microhabitat on gene expression. The environment-specific modulation of gene expression in H. asinina post-induction may be a means for marine invertebrates to cope with changes in their settlement environment at metamorphosis. Genes expressed in the larval sensory structures acting to detect external metamorphic cues may be particularly good candidates for studying environmentally-related transcriptional variation. I identified three novel genes expressed in putative sensory structures of Haliotis asinina larvae just prior to metamorphosis. The spatial and temporal expression patterns of these genes correlate with changes in larval ciliation patterns throughout metamorphosis, strongly suggestive of a role in metamorphic initiation. The three genes exhibit significant overlap in spatial expression profiles, indicative of genetic crosstalk between different sensory systems at metamorphosis. Transcriptional variation in gastropod sensory system genes may have assisted the evolution of different metamorphic inductive cues for different species. The results presented here establish an important role for transcriptional variation during marine invertebrate metamorphosis. Transcriptional variation underlies the morphological change from larval to adult body plan and also appears to assist larval recruitment in variable benthic habitats. Modulation of gene expression at metamorphosis in response to the environment may ultimately influence marine invertebrate species biogeography and evolution. Abalone Haliotis-asinina coralline algae development Ecological Genetics gene expression Larval Settlement marine ecology Metamorphosis life history evolution
319	Effects of wastewater effluent on macrobenthic infaunal communities at Christies Beach, South Australia / Loo, Maylene G. K. January 2001 (has links) (PDF) Thesis (Ph.D.) -- University of Adelaide, Dept. of Environmental Biology, 2001. / Includes bibliographical references (leaves 136-154).
320	Dynamics of phytoplankton in relation to tuna fish farms in Boston Bay and near-shore Spencer Gulf, South Australia Paxinos, Rosemary, January 2007 (has links) Thesis (Ph.D.)--Flinders University, School of Biological Sciences. / Typescript bound. Includes bibliographical references: (leaves 149-166) Also available online.

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