During the mid-Pleistocene Transition (MPT), 2 families, 14 genera and 41 species of benthic foraminifera (Extinction Group) declined in abundance (8-12 % of early Pleistocene benthic foraminiferal fauna) and finally disappeared at mid-bathyal depths in the Caribbean Sea (ODP Site 1000A, 916m depth), as part of the global extinction of at least 73 deep-water species at this time. At this site, the final phase of pulsed glacial decline, partial interglacial recoveries (0.8-0.67 Ma), and final extinction (0.58 Ma) was essentially the same as the youngest level so far documented elsewhere (0.57 Ma). Extinction Group specimens had smaller average sizes during periods of decline than during favorable periods with higher abundances. Census counts on different size fractions indicate that this extinction event is best recorded by studies of shells in the 150-300µm size range. Pteropod dissolution proxies indicate that intermediate waters in the Caribbean became less corrosive around the onset of the MPT (after c. 1.2 Ma). This is interpreted to be a result of increased input of northern hemisphere-sourced intermediate water at the expense of southern-sourced Antarctic Intermediate Water. Intervals of enhanced Extinction Group decline in intermediate waters in the Caribbean occurred during glacials around the start (1.15-1.05 Ma) and end (0.83-0.65 Ma) of the MPT. During these glacial periods preservation of carbonate was optimal and ä 13 C values high (in source waters at mid-depths in the North Atlantic), suggesting a causal link with enhanced inflow of a less-corrosive, colder, nutrient-depleted, well-ventilated water mass, such as Glacial North Atlantic Intermediate Water.
Optimized medicinal plant processing and extraction can
improve
extract yield and efficiency for valued secondary metabolites while
reducing operation costs. This study investigated the effects of the
particle size [coarse (2–4 mm), medium (0.5–2 mm), fine
(0.25–0.5 mm)], solvents (ethanol, butanol, hexane), and extraction
temperature (−20 °C, 4 °C, room temperature) on extracted
crude cannabis oil yield and cannabinoid/terpene concentrations using
a full factorial design. Results indicate that finer particle size
significantly increased the cannabinoid concentrations in the extracts.
Ethanol extraction with fine-sized cannabis particles at 4 °C
obtained the highest crude oil yield of 28% and had improved recovery
rates: 41% for THCA, 36% for CBGA, and higher total terpene concentration
(1550 mg/100 g dry matter) in the extracts. Irrespective of temperature
and particle size, the solvents produced extracts with different colors:
dark green for ethanol, green for butanol, and yellow for hexane.
This research provides grinding and extraction conditions with scale-up
potential by the cannabis industry to achieve higher crude cannabis
oil yield with significant cannabinoids and terpene concentrations.
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