Hydrocarbon recovery method and hydrocarbon recovery system

What is claimed is: 1. A hydrocarbon recovery method for recovering a production fluid containing hydrocarbons from a production well provided in a seabed in which microorganisms that produce carbon dioxide for promoting a deposition of calcium carbonate exist, the method comprising: injecting, into the production well, a nutrient salt for activating the microorganisms, wherein the nutrient salt comprises yeast extract; waiting until a first period of time passes after the nutrient salt is injected into the production well, the first period of time being required for the microorganisms existing in the seabed to absorb the nutrient salt to reach a state of having urease activity: injecting urea and calcium salt into the production well after the first period of time has passed; waiting until a second period of time passes after the urea and the calcium salt are injected into the production well, the second period of time being required for depositing calcium carbonate that corresponds to an amount of the injected urea; decompressing an inside of the production well after the second period of time has passed, thereby lowering an internal pressure of the production well; and recovering the hydrocarbons after lowering internal pressure of the production well. 2. The hydrocarbon recovery method according to claim 1 , wherein injecting the nutrient salt includes injecting the nutrient salt into the seabed through an opening in the production well. 3. The hydrocarbon recovery method according to claim 1 , further comprising: before injecting the nutrient salt, lowering internal pressure of the production well to lower than the pressure in the seabed so as to move the microorganisms existing in the seabed to a region near the production well. 4. The hydrocarbon recovery method according to claim 1 , wherein the decompressing is performed after the second period of time, wherein calcium carbonate is deposited due to a reaction between (i) calcium salt present in the seabed and (ii) carbon dioxide produced by hydrolysis of urea by the microorganisms having urease activity. 5. The hydrocarbon recovery method according to claim 1 , further comprising: injecting microorganisms that produce carbon dioxide into the production well. 6. The hydrocarbon recovery method according to claim 5 , further comprising: before injecting the microorganisms that produce carbon dioxide into the production well, culturing, in an anaerobic environment where water recovered from the production well exists, the microorganisms. 7. The hydrocarbon recovery method according to claim 1 , further comprising repeating injection of the nutrient salt after the decompressing. 8. The hydrocarbon recovery method according to claim 7 , wherein repeating injection of the nutrient salt is performed when an amount of the hydrocarbons recovered within a unit time in the recovering is less than a threshold value. 9. The hydrocarbon recovery method according to claim 1 , wherein injecting the nutrient salt includes injecting the nutrient salt in a state in which inside of the production well has been made alkaline. 10. A hydrocarbon recovery system for recovering a production fluid containing hydrocarbons from a production well provided in a seabed in which microorganisms that produce carbon dioxide or promoting a deposition of calcium carbonate exist, the system comprising: an injection apparatus that injects, into the production well, a nutrient salt for activating the microorganisms, wherein the nutrient salt comprises yeast extract; a pressure regulating apparatus that decompresses an inside of the production well thereby lowering an internal pressure of the production well; a recovery apparatus that recovers the hydrocarbons after lowering internal pressure of the production well; and a control apparatus that controls the injection apparatus, the pressure regulating apparatus and the recovery apparatus, wherein the control apparatus: causes the injection apparatus to inject the nutrient salt into the production well and then causes the injection apparatus to inject urea and calcium salt into the production well after a first period of time has passed, the first period of time being required for the microorganisms existing in the seabed to absorb the nutrient salt to reach a state of having urease activity, and causes, after the urea and the calcium salt are injected into the production well by the injection apparatus, the pressure regulating apparatus to decompress the inside of the production well after a second period of time has passed, the second period of time being required for depositing calcium carbonate that corresponds to an amount of the injected urea.