Sexual Isolation Between Drosophila mojavensis and Drosophila arizonae

Massie, Katie

January 2006

Sexual, or behavioral, isolation is a form of reproductive isolation that impedes gene flow between divergent taxa. In this study, sexual isolation was measured in a sister-species pair of North American cactophilic fruitflies. The results show that interspecific behavioral isolation is dependent upon the strain of origin of D. mojavensis, but is independent of the strain of origin of D. arizonae. Interspecific sexual isolation is greatest in crosses involving D. mojavensis from sympatry, which is consistent with reinforcement, and seems to be attributable to increased reluctance by D. mojavensis females and D. arizonae males to mate with heterospecifics. Contrary to previous studies, I found strong evidence for reproductive isolation between two strains of D. arizonae. The majority of the observed behavioral isolation seems to be the result of intraspecific, interpopulation encounters between females from Southeastern Mexico and males derived from the Northern population.

sexual isolation

sympatry

reinforcement

Drosophila

speciation

The solubility and speciation of molybdenum in aqueous liquid and vapour : an experimental study

Rempel, Kirsten U.

January 2008

We have conducted an experimental investigation of the solubility and speciation of Mo in HCl-, NaCl-, and NaOH-bearing water vapour, and of the partitioning of Mo between coexisting aqueous liquid and vapour at 300 to 370°C and up to saturated pressure. Our results indicate that Mo concentration is enhanced in HCl-bearing water vapour at fHCl > 0.1 bar, and in NaOH-saturated water vapour, but is unaffected by the presence of NaCl. This suggests that Mo speciates as MoO3·nH2O in water vapour at equilibrium with NaCl or fHCl < 0.1 bar. The dependence of SigmafMo on fHCl at higher acidity points to the formation of Mo oxychloride (MoO2Cl 2). For the system MoO3-NaOH-H2O, log Sigma fMo increases with increasing fH2O, and with log SigmafNa in a ratio of 0.28+/-0.4, but Sigma fNa does not change with increasing fH2O. This suggests the formation of a small proportion of sodium molybdate (Na 2MoO4) in addition to MoO3·nH2O. Our partitioning experiments show that at lower temperature and fluid density, Mo partitions more strongly into the liquid than the vapour, but the Mo concentration in the vapour increases as the temperature-pressure conditions approach those of the critical point of water (374°C and 221 bar), surpassing that in the liquid at ∼360°C. The results of our experiments indicate that both the liquid and vapour phases may be important for the transport of Mo in porphyry ore-forming systems, and that vapour-phase solubility is enhanced in high fHCl magmatic gases.

Molybdenum -- Solubility.

Molybdenum -- Speciation.

Porphyry -- Inclusions.

What traits predispose the Band-rumped Storm-petrel, Oceanodroma castro, to ecological speciation in the absence of physical barriers to gene flow?

Deane, Petra

01 February 2013

Evidence for the repeated, independent evolution of hot- and cool-season breeding populations across colonies of the Band-rumped Storm-petrel has garnered much interest from seabird ecologists and evolutionary biologists, alike. Sympatric seasonal populations have been shown to be each other’s closest relatives, implying that ecological divergence into two seasonal foraging types has taken place several times independently across the species’ range, each time in the absence of geographical barriers to gene flow. I present data on the molecular genetic characteristics of a unique year-round breeding population in the Cape Verde archipelago. Using mitochondrial control region sequence and five microsatellite loci, I characterized genetic relationships among 220 birds breeding in four different months (January, April, June and November) and tested for a relationship between temporal isolation and genetic differentiation. Birds breeding in April, June and November were genetically indistinguishable at microsatellite loci, but control region sequence suggested differentiation between January and other months (pairwise ΦST from 0.19 to 0.46, p≤0.05). No evidence for genetic isolation by time was found. A comparison of birds breeding in June and November revealed significant differences in a suite of morphological traits related to foraging strategy (tarsus length, bill length, bill depth, head length, wing length and tail shape), and even significant variation among birds breeding in the same month, despite evidence for gene flow between these groups. Interpreting these patterns in the context of Band-rumped Storm-petrel populations range-wide, I suggest that divergent selection on standing variation within ancestral populations may be an important mechanism explaining the repeated, independent evolution of conserved seasonal foraging types in this species. / Thesis (Master, Biology) -- Queen's University, 2011-02-28 12:02:44.256

ecological speciation

parallel evolution

standing variation

Assessment of mercury methylation and demethylation with focus on chemical speciation and biological processes

Bystrom, Elza

15 January 2008

Mercury occurs naturally in the environment and is released by human activities. Mercury exists in gaseous, liquid, and solid phases, and all phases are of importance when fate s effects of mercury in terrestrial, fresh and marine water, and atmospheric environments. Mercury can be transformed to a highly toxic form of methylmercury. Humans are exposed to the toxicity of methylmercury by eating fish. Methylmercury is bioaccumulated up the food chain by transfer of residues of methylmercury in smaller organisms that are food for larger organisms in the chain. This sequence of process results in higher concentrations in organisms at higher levels in the food chain with human at the top of the food chain. This study is an evaluation of chemical speciation and biological processes that govern mercury distribution and transformation among three environmental media: atmosphere, water, and sediments. Understanding speciation of mercury and biological processes of methylmercury transformation plays an important part in toxicity and exposure of mercury to living organisms. Speciation also influences transport of mercury within and between environmental media while biological processes of methylmercury transformation influence methylmercury production and its transport to the biological communities. Study also covers the demethylation process that can convert methylmercury to inorganic mercury species. Demethylation and methylation processes therefore may occur in parallel further complicating the assessment of mercury fate in the environment. The study will provide integrated fundamental pathways of mercury species transformation through chemical and biological pathways and will contribute to an understanding of fate and transport of mercury species in environmental media. It will also provide a foundation for a state- and region-wide examination of mercury monitoring and control strategies.

Mercury methylation and demethylation

Mercury

Methylation

Speciation (Chemistry)

Speciation, species boundaries, and the population biology of Indo-West Pacific butterflyfishes (Chaetodontidae)

McMillan, W. Owen

January 1994

Thesis (Ph. D.)--University of Hawaii at Manoa, 1994. / Includes bibliographical references (leaves 202-228). / Microfiche. / xii, 228 leaves, bound ill. (some col.) 29 cm

Chaetodontidae -- Speciation

Effect of driving cycles on the particulate mass and number emissions from in-use heavy heavy-duty diesel vehicles

Thiagarajan, Sairam.

January 2004

Thesis (M.S.)--West Virginia University, 2004. / Title from document title page. Document formatted into pages; contains xiii, 152 p. : ill. (some col.). Includes abstract. Includes bibliographical references (p. 82-86).

Chemical speciation of copper, lead, cadmium and zinc in estuarine and coastal waters investigating organic complexation in size fractionated samples /

Kozelka, Peter Bradley.

January 1996

Thesis (Ph. D.)--University of California, Santa Cruz, 1996. / Typescript. Includes bibliographical references (leaves 149-150).

An investigation into trait differentiation within and between two closely related Silene species.

Connaghan, Daniel

January 2017

Ecological differentiation and adaptation are processes that can drive divergence and speciation. Measuring ecologically revenant traits can help to identify possible targets of natural selection that may have mediated ecological differentiation. This study looked for evidence of within and between species differentiation in seven ecologically relevant traits in two closely related species sampled across their range, and whether any of these traits were related to climate differences among site of origin. We measured seven traits under common garden conditions in seedlings of Silene dioica (11 populations, n=528) and Silene latifolia (14 populations, n=672) grown in the botanical garden in Uppsala in a randomised block design. Three traits related to leaf morphology were measured, and four related to water usage of the plant were measured. These traits were analysed for differences between the species as well as for differences within each species between populations using a linear mixed model. The traits’ relationship to a climate variable, derived from the axes of a principal components analysis of climate data for each site, was investigated using a linear model. A number of drought avoidance (e.g. succulence, max turgid weight) and morphological traits (e.g. leaf ratio) differed between the two species. Water use efficiency has been flagged before as possibly driving ecological differentiation between the two species and the results identify possible candidate traits for quantifying this separation. Differentiation between populations within each species was also present in two traits within S. latifolia and in four traits within S. dioica significantly varying between the populations. This could reflect either local adaptation or genetic drift acting on populations across the range. One trait related to the amount of water taken up by the leaf (wgain) was found to be significantly associated with the climate variable, which was extracted from the principal components analysis, in S. latifolia. The results identified a number of candidate traits which could reflect ecological differences between the species especially with respect to water relations. These traits may allow the species to respond differently during periods of water stress, which in turn could result in ecological separation of the species and determine their geographical ranges.

Silene

speciation

ecological differentiation

Ecology

Ekologi

Effect of Mercury Speciation on its Transport in Soil and Removal from Produced Water

Gai, Ke

01 August 2017

Mercury (Hg) is distributed globally through atmospheric transport. The broad range of environmental conditions will lead to various possible speciation of mercury, which will ultimately affect the toxicity and transport of mercury. Hg toxicity, transport and speciation have been widely studied. However, information about effects of Hg speciation on its environmental behavior in unsaturated porous media and on its removal from wastewater stream is still limited. The present work contributes towards understanding the impact of Hg speciation on both the transport of Hg species in unsaturated porous media (e.g., surface soil) and removal of Hg species in wastewater streams. This knowledge is necessary to assess the possible environmental risks of Hg in the environment, where different Hg species can exist and have different properties and impacts on water quality and ecosystems. The first objective of this research was to determine the effect of Hg speciation on its retention in partially saturated soils. The retention of Hg species in model porous media and in real soil was assessed in column breakthrough experiments. Deposition (retention) rates for each Hg species were calculated to evaluate the influence of Hg speciation, porous medium composition and influent solution on the mobility of Hg species in porous media. This study provided information about the relative retention of each Hg species in soils, and identified natural-organic-matter-bound Hg as the most mobile Hg species and that with the greatest potential for vertical migration to groundwater. The second objective of this research was to determine how Hg speciation affects its ability to be removed from water via adsorption by activated carbon and organoclay. The effects of Hg speciation, water quality parameters and adsorbent type on the removal of Hg were compared to explore the potential removal efficacy and mechanism. The result indicated Hg removal efficacy was influenced by Hg speciation differently depending on the solution conditions. Therefore, using total dissolved Hg(II) to predict Hg removal efficacy may not provide a reliable estimate of adsorption. Organoclay was shown to have a highly reactive surface and the highest adsorption capacity per unit specific surface area among the tested adsorbents. The third objective was to determine the Hg speciation in produced water from an oil production well, and to study the influence of Hg speciation on its removal from produced water by adsorbents. Mercury species in a produced water sample were identified as mainly particulate species and hydrophobic species. The removal of the amended Hg species in produced water was measured to evaluate the impact of Hg speciation on its removal. This study showed that produced water composition affected Hg speciation and formed hydrophobic Hg was more difficult to remove than initially added hydrophilic Hg species in produced water.

mercury

produced water

removal

soil

speciation

transport

Speciation of Cr (II) and Cr (III) complexes by IC-ICP-OES and HPLC.

Neuhoff, Jeanine

15 May 2008

A lack of methods for the separation and determination of air-sensitive Cr(II) and stable Cr(III) complexes in aqueous and organic phase motivated this study. The formation of kinetically stable Cr(III) complexes with common anions was studied using ion chromatography coupled to inductively-coupled plasma emission spectrometry (ICP-OES). Distribution diagrams for the complex species were determined from the results. Estimations of the stability constants were made from these diagrams and compared with stability constants published in the literature. Separation and determination of Cr(II) and Cr(III) and their complexes with PDCA and EDTA in aqueous phase was investigated using ion chromatography. ICP-OES was used for detection purposes. The separation and determination of Cr(II) and Cr(III) complexes with a ligand, bis-(2-decylsulphanyl-ethyl)amine, developed by Sasol Technology (Pty) Ltd., was attempted. The study was undertaken as the Cr(III) complex is used as a catalyst in the trimerisation of ethylene to 1-hexene. The mechanism is still unknown and determining which species are present in the catalytic cycle could clarify which oxidation-reduction couple is involved during the cycle. Reversed phase HPLC was investigated as a possible method for the separation of these complexes. No separation of the species was, however, achieved. / Prof. P.P. Coetzee

chromatographic analysis

chromium compounds

speciation (chemistry)