Lake temperatures will increase but dissolved oxygen in the water will decrease. Water vapour is a potent greenhouse gas, so global temperatures will increase, including lake temperature. Additionally, increased water vapour in the air will decrease the amount that can evaporate from the lake and further reduce the amount that it can cool, in which makes the water warmer still. Water temperature increases mean decreased the solubility of gases (above 4 degrees C), so dissolved oxygen would cease to decrease on a ppm basis. I hope this answer has helped you.
‘Noble gases’ are least reactive as their outer shells are fully filled with electrons. These do need to share their electrons from outer shells with other elements .
Pericarditis is your answer. Its a inflammation of the two layers of the thin membrane surrounding the heart.
This answer is C. Disruptive selection
This is because the normal distribution curve is shifting in one direction or another
Correct answer: C). Thymine
The thymine, which is present in the DNA is replaced by the uracil in the RNA. Uracil is one of the four nitrogenous bases which are found in the RNA. The nitrogenous bases present in the RNA are adenine, guanine, uracil, and cytosine. While the nitrogenous bases found in DNA are Adenine, guanine, thymine, and cytosine.
Hence, thymine is the nitrogenous bases which are not found in RNA.
