Amphibious vehicle and control method for the same

The invention claimed is: 1. An amphibious vehicle, comprising: an engine; at least one land traveling device; at least one water propelling device; a power distribution device configured to distribute power outputted from the engine between land travel power which is to be supplied to the at least one land traveling device and water propulsion power which is to be supplied to the at least one water propelling device; a slippage-amount detection device configured to detect a slippage amount of the at least one land traveling device relative to ground; and a controller configured to adjust at least the land travel power, of the land travel power and the water propulsion power, on the basis of the slippage amount detected by the slippage-amount detection device, wherein the controller is configured to reduce the land travel power and increase or maintain unchanged the water propulsion power, if the slippage amount detected by the slippage-amount detection device is greater than a threshold while the land travel power and the water propulsion power are supplied respectively to the at least one land traveling device and the at least one water propelling device for landing from water to land. 2. The amphibious vehicle according to claim 1 , wherein the controller is configured to increase the water propulsion power if the slippage amount detected by the slippage-amount detection device is greater than the threshold. 3. The amphibious vehicle according to claim 1 , wherein the at least one land traveling device comprises a first land traveling device disposed on a right side of the amphibious vehicle and a second land traveling device disposed on a left side of the amphibious vehicle, wherein the at least one water propelling device comprises a first water propelling device disposed on the right side of the amphibious vehicle and a second water propelling device disposed on the left side of the amphibious vehicle, wherein the power distribution device is configured to distribute the power to first land travel power to be supplied to the first land traveling device, second land travel power to be supplied to the second land traveling device, first water propulsion power to be supplied to the first water propelling device, and second water propulsion power to be supplied to the second water propelling device, wherein the slippage-amount detection device is configured to detect a slippage amount of each of the first land traveling device and the second land traveling device relative to the ground, and wherein the controller is configured to reduce a corresponding one of the first land travel power or the second land travel power if the slippage amount of the first land traveling device or the second land traveling device detected by the slippage-amount detection device is greater than the threshold while the first land travel power, the second land travel power, the first water propulsion power and the second water propulsion power are respectively supplied to the first land traveling device, the second land traveling device, the first water propelling device and the second water propelling device, for landing from water to land. 4. The amphibious vehicle according to claim 3 , wherein the controller is configured to adjust a ratio of the first water propulsion power to the second water propulsion power on the basis of a ratio of the first land travel power to the second land travel power. 5. The amphibious vehicle according to claim 3 , further comprising a yaw-angle detection device configured to detect a yaw angle of the amphibious vehicle, wherein the controller is configured to adjust a ratio of the first water propulsion power to the second water propulsion power on the basis of the yaw angle detected by the yaw-angle detection device. 6. The amphibious vehicle according to claim 1 , wherein the slippage-amount detection device includes a sensor for measuring a rotation speed or a torque of the at least one land traveling device. 7. The amphibious vehicle according to claim 6 , wherein the slippage-amount detection device further includes a vehicle-speed sensor for measuring a speed of the amphibious vehicle. 8. The amphibious vehicle according to claim 1 , wherein the land traveling device has an endless track, and wherein the water propelling device has a water jet. 9. A method of controlling an amphibious vehicle which comprises an engine, at least one land traveling device, and at least one water propelling device, the method comprising: a distribution step of distributing power outputted from the engine between land travel power which is to be supplied to the at least one land traveling device and water propulsion power which is to be supplied to the at least one water propelling device, for landing from water to land; a slippage-amount detection step of detecting a slippage amount of the at least one land traveling device relative to ground; and a land-travel-power controlling step of reducing the land travel power and increasing or maintaining unchanged the water propulsion power, if the slippage amount detected in the slippage-amount detection step is greater than a threshold while the land travel power and the water propulsion power are supplied respectively to the at least one land traveling device and the at least one water propelling device.