Dark Matter eLiquid

Enjoy the wonderful flavor of our latest VapeSafe eLiquid - Dark Matter.

Dark Matter tastes like German chocolate cake. For those of you who have not had the fortunate to try a piece German chocolate cake recently, this is a great way to experience the flavor without getting any of the calories. German chocolate cake is a layered cake filled and topped with a coconut-pecan frosting. Traditionally sweet baking chocolate is used for the chocolate flavor in the actual cake. The robust filling and topping is a caramel made with egg yolks and evaporated milk. Once the caramel is cooked, coconut and pecans are stirred into the mixture. Finally, rich chocolate frosting is spread around the sides of the cake to hold in the filling.

Dark Matter eLiquid by VapeSafe captures the essence of German chocolate cake. Dark Matter eLiquid delivers plumes of vapor and rich chocolatey flavor that you'll want to enjoy again and again. Try Dark Matter today!

Technology Information:

Soil to plant transfer of ^2^3^8U, ^2^2^6Ra and ^2^3^2Th on a uranium mining-impacted soil from southeastern China [An article from: Journal of Environmental Radioactivity]

Description

This digital document is a journal article from Journal of Environmental Radioactivity, published by Elsevier in 2005. The article is delivered in HTML format and is available in your Amazon.com Media Library immediately after purchase. You can view it with any web browser.

Description:
Both soil and plant samples of nine different plant species grown in soils from southeastern China contaminated with uranium mine tailings were analyzed for the plant uptake and translocation of ^2^3^8U, ^2^2^6Ra and ^2^3^2Th. Substantial differences were observed in the soil-plant transfer factor (TF) among these radionuclides and plant species. Lupine (Lupinus albus) exhibited the highest uptake of ^2^3^8U (TF value of 3.7x10^-^2), while Chinese mustard (Brassica chinensis) had the least (0.5x10^-^2). However, in the case of ^2^2^6Ra and ^2^3^2Th, the highest TFs were observed for white clover (Trifolium pratense) (3.4x10^-^2) and ryegrass (Lolium perenne) (2.1x10^-^3), respectively. ^2^3^2Th in the tailings/soil mixture was less available for plant uptake than ^2^2^6Ra or ^2^3^8U, and this was especially evident for Chinese mustard and corn (Zea mays). The root/shoot (R/S) ratios obtained for different plants and radionuclides shown that Indian mustard had the smallest R/S ratios for both ^2^2^6Ra (5.3+/-1.2) and ^2^3^2Th (5.3+/-1.7), while the smallest R/S ratio for ^2^3^8U was observed in clover (2.8+/-0.9).

Reviews

None