Geochemistry of Forest Rings in Northern Ontario: Identification of Ring Edge Processes in Peat and Soil

Brauneder, Kerstin M.

24 August 2012

Forest rings are large features common in Ontario’s boreal forests that comprise circular topographic depressions in carbonate mineral soil that are filled with peat. This thesis documents differences in peat and soil chemistry along transects across the “Bean” and “Thorn North” rings, which are centered on accumulations of CH4 and H2S, respectively. Within the mineral soil, ring edges are characterized by strong negative anomalies in pH, ORP and carbonate, as well as positive anomalies of Al, Fe and Mn in the results of aqua regia and hydroxylamine-hydrochloride digestions. Within the peat, positive carbonate and pH anomalies are recorded. This antithetic relationship suggests vertical migration of carbonate species from clay to peat. An inverse relationship exists between ORP, versus redox inferred from aqua regia. Strong ORP lows occur where oxidized products show highest concentrations. This is interpreted to reflect the proliferation of autotrophic organisms occupying the strong redox gradient at the ring edge.

forest ring

reduced chimney

H2S

CH4

oxidation-reduction potential (ORP)

Geochemistry of Forest Rings in Northern Ontario: Identification of Ring Edge Processes in Peat and Soil

Brauneder, Kerstin M.

January 2012

Forest rings are large features common in Ontario’s boreal forests that comprise circular topographic depressions in carbonate mineral soil that are filled with peat. This thesis documents differences in peat and soil chemistry along transects across the “Bean” and “Thorn North” rings, which are centered on accumulations of CH4 and H2S, respectively. Within the mineral soil, ring edges are characterized by strong negative anomalies in pH, ORP and carbonate, as well as positive anomalies of Al, Fe and Mn in the results of aqua regia and hydroxylamine-hydrochloride digestions. Within the peat, positive carbonate and pH anomalies are recorded. This antithetic relationship suggests vertical migration of carbonate species from clay to peat. An inverse relationship exists between ORP, versus redox inferred from aqua regia. Strong ORP lows occur where oxidized products show highest concentrations. This is interpreted to reflect the proliferation of autotrophic organisms occupying the strong redox gradient at the ring edge.

forest ring

reduced chimney

H2S

CH4

oxidation-reduction potential (ORP)

Optimizing embryo culture conditions and spent culture media analysis as predictors of embryo quality and pregnancy

Kaskar, Khalied

January 2021

Philosophiae Doctor - PhD / The aim of this thesis is first, to evaluate various culture conditions to improve embryo development, and secondly, to analyze spent culture media for any biomarkers that may be predictive of embryo health. Single-step and sequential culture media were compared in both Planer and EmbryoScope™ incubators. Single-step media resulted in better blastocyst development compared to sequential media and the EmbryoScope™ incubation system showed slight improvements in embryo development than the Planer system. The benefits of supplementing the culture medium with either insulin or insulin-like growth factor 1 (IGF-1) or culturing in a 2% O2 environment, using two different strains of mice (hybrid and C57), as well as the suitability of these strains for quality control were compared. In insulin, hybrid embryos were slower to blastulate and had a lower blastocyst rate, whereas C57 embryos were slower to the morula and faster to blastocyst stages, and lower blastocyst rate than the controls. IGF-1 showed no difference in time-lapse morphokinetics (TLM) or blastocyst rates compared to controls in both hybrid and C57 embryos. Under 2% O2, hybrid embryos showed no significant difference in TLM up to the 8-cell stage, but slowed down afterwards, resulting in blastocysts with significantly lower cell counts than the 6% O2 group. The C57 embryos were slower to reach morula and expanded blastocyst, and had lower blastocyst rates in 2%O2 vs 6%O2. The C57 strain had significant slower overall embryo development for all time points than hybrid embryos in insulin, IGF-1 and ultra-low O2, as well as lower blastocyst rates. Measurement of growth differentiation factor 9 (GDF-9) and oxidation-reduction potential (ORP) in spent media as markers for embryo health were evaluated. Day 5 human blastocysts yielded higher pregnancy rates and GDF-9 levels in spent media compared to Day 6 blastocysts, but TLM parameters showed no impact on pregnancy outcome. In Day 6 blastocysts, the non-pregnant group showed significantly faster embryo development compared to the clinically pregnant group up to the 8-cell stage and start of blastulation. GDF-9 did not show any significant differences between non-pregnant and pregnant groups of Day 5 or Day 6 embryo transfers. ORP in spent media from good quality Day 3 embryos that developed into blastocysts were significantly higher than from those that did not, with no difference in control medium ORP. Spent media from arrested embryos showed lower ORP than their corresponding controls. Arrested embryos had slower development at syngamy, morula, blastulation and blastocyst stages. The single step medium in the EmbryoScope™ is the preferred choice for embryo culture. Insulin or IGF-1 media supplementation or 2% O2 culture did not provide any benefit to embryo development. The C57 mouse strain is more sensitive and may be better to detect changes in culture conditions, and therefore better model for quality control assays. GDF-9 values decrease from Day 5 to Day 6 which gives new insight to understanding the role of GDF-9 during embryogenesis. ORP in spent media indicate that embryos that developed into blastocysts did not contribute to ROS, but maintained ORP balance.

Mouse embryo

Human embryo

Spent culture media

Insulin-like growth factor-1 (IGF-1)

IVF

Insulin

Low oxygen tension

Oxidation-reduction potential (ORP)

Antioxidant capacity

Growth differentiation factor-9 (GDF-9)

Time-lapse morphokinetics (TLM)

Infertility

Pregnancy