Also pls explain why!!!But pls help!!!Pls
Answer:
"The cricket population would increase"
Explanation:
Without mice as a natural predator, there would be no regulation as to how many crickets live in an area, thus there would be an excessive amount of breeding which can lead to mutations and more sick crickets than healthy ones. The mice pick off the sick/ slower ones so the naturally stronger crickets can pass on their genes to future generations.
Answer:
The cricket population would increase.
Explanation:
If there were no more mice to eat the crickets, the crickets would have a larger population.
B---types of sugar molecules
C---sized phosphate groups
D---types of nitrogenous bases
PLZ ANSWER IF U ARE ONLY SMART AT THIS STUFF
The sisters have different traits because their DNA contains different ORDER OF NUCLEOTIDES (Option A).
DNA is a double helix composed of two long chains of nucleotides.
In DNA, there are four types of nucleotides, each containing one different nitrogenous base, i.e., Adenine, Guanine, Thymine and Cytosine.
During gene transcription, a fragment of DNA called gene is used as template to create an mRNA, which is in turn used as template to create a protein.
The order of nucleotides in a given gene sequence determines the sequence in mRNA and ultimately also the protein sequence that's synthesized from this sequence.
In conclusion, the sisters have different traits because their DNA contains different ORDER OF NUCLEOTIDES (Option A).
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B. the amount of habitat areas that are availabláin a given area
C. the amount of resources that are needed by a population of organisms
D. the number of individual organisms the environment can support in a given area
Answer:
b
Explanation:
the carrying capacity is how much so the amount of habitat space would be the capacity
Answer:
the number of individuals organism the environment can support in a given area
Renal autoregulation is the ability of the kidneys to maintain a relatively constant GFR or glomerulofiltration rate despite fluctuating blood pressure. Autoregulation is a remarkable property of multiunit smooth muscles of small arteries and arterioles to respond to changes in internal and external pressure. The blood vessels in the human body react by contracting whenever the blood pressure is elevated and by expanding when the blood pressure is reduced. On the other hand, if there is an elevation or reduction of the external interstitial pressure, it results in dilation and contraction, respectively. The lowest autoregulating pressure is about 60 mmHg. By a further reduction in perfusion pressure, RBF is sharply reduced.
Kidneys are the important organs of the excretory system involved in the removing of nitrogenous wastes from the body. Apart from this, they are involved in maintaining the acid-base balance, electrolytes and thus contibuting in homeostatis of the body.
The structural and functional unit of a kidney is called a nephron. Glomeruli of the nephrons are involved in the process of filtering the waste products and excess of fluids from the blood. This process is called the glomerular filtration. GFR or the glomerular filtration rate is the rate at which the fluids are filtered from the glomerulus of the nephron. A constant GFR is very essential for the healthy functioning of kidneys. Any change in the arterial pressure can injury the nephrons of the kidney. Hence a constant GFR despite of changes in the blood pressure is maintained by a process called the renal autoregulation.
Renal autoregulation together with the tubuloglomerular feedback help in maintaining a constant GFR inspite of changes in the sodium chloride levels in the urinary filtrate. An elevated level of sodium, results in constriction of the afferent arteriole, decreasing renin secretion and thus, lowering the GRF. Any decrease in sodium levels stimulates more renin production, constricts the efferent arteriole and increases the GRF.
Thus, renal autoregulation is the ability of the kidneys to maintain a constant GRF rate despite changes in the blood pressure.