Aquaculture luminaire and lighting system, and a lighting method

The invention claimed is: 1. A lighting system comprising: an aquaculture luminaire for underwater use, comprising: a light source arrangement for generating a first light output portion and a second light output portion, wherein, when the luminaire is in an intended operational orientation relative to a vertical axis, the light of the first light output portion has a downward direction component and the light of the second light output portion has an upward direction component, wherein the light of the second light output portion is all directed with an angle to the vertical axis greater than a threshold angle, wherein the light source arrangement comprises an array of light sources with different light sources providing a light output in different directions relative to the vertical axis, wherein the light source arrangement is configurable to adjust, in dependence on a depth at which the luminaire is to be used, a division of light between the first and second light output portions by actuating selected light sources of the array, wherein the light source arrangement is dynamically configurable in use, a motion and/or position sensor for sensing a motion and/or position of a water surface above the luminaire; and a controller for adapting the threshold angle dynamically in dependence on the motion and/or position of a water surface. 2. The luminaire of claim 1 , wherein the array of light sources provide a light output in different radial directions relative to the vertical axis as well as different angles to the vertical axis. 3. The luminaire of claim 1 , wherein the light source arrangement is dynamically configurable in use. 4. The luminaire of claim 3 , comprising a tilt sensor for sensing an orientation of the luminaire relative to the vertical axis. 5. A lighting arrangement, comprising: at least one luminaire of claim 1 ; a float for floating on a surface of water; and a suspension system for suspending the at least one luminaire at a respective distance below the surface of the water, wherein the division of light between the first and second light output portions is configured in dependence on the respective distance. 6. A lighting system, comprising: a plurality of identical lighting arrangements of claim 5 , at least some of which have their at least one luminaire at different depths and with differently configured division of light between the first and second light output portions. 7. The lighting system of claim 1 , wherein the motion and/or position sensor comprises an accelerometer and a gyroscope. 8. The lighting system of claim 1 , wherein the motion and/or position sensor comprises an array of accelerometers and an array of gyroscopes for monitoring the water surface at a plurality of locations. 9. The lighting system of claim 8 , wherein the controller is adapted to: monitor the water surface height at said plurality of locations over time; determine a wave velocity, amplitude and direction from said water surface heights; determine a critical angle of the water surface in the vicinity of the luminaire over time based on the wave velocity, amplitude and direction; and configure the threshold angle in dependence on the critical angle. 10. The lighting system of claim 1 , further comprising: a float for floating on a surface of water; and a suspension system for suspending the luminaire at a distance below the surface of the water. 11. The luminaire of claim 1 , wherein the aquaculture luminaire comprises a beam shaping component in the path of the second light output portion and wherein the light source arrangement is configurable to adjust the threshold angle by adjusting the position of the beam shaping component. 12. A method of providing underwater lighting for aquaculture, comprising: providing a luminaire having a light source arrangement for generating a first light output portion and a second light output portion, wherein, when in an intended operational orientation relative to a vertical axis, the light of the first light output portion has a downward direction component and the light of the second light output portion has an upward direction component, wherein the light of the second light output portion is all directed with an angle to the vertical axis greater than a threshold angle; configuring, by actuating selected light sources of an array of light sources of the light source arrangement with different light sources providing a light output in different directions relative to the vertical axis, and in dependence on a depth at which the luminaire is to be used, a division of light between the first and second light output portions; monitoring the water surface height at a plurality of locations over time; determining a wave velocity, amplitude and direction from said surface heights; determining a critical angle of the water surface in the vicinity of the luminaire over time based on the wave velocity, amplitude and direction; and configuring the threshold angle dynamically in use in dependence on the critical angle. 13. The method of claim 12 , wherein the luminaire comprises a beam shaping component in the path of the second light output portion, the method further comprising: configuring, by adjusting a position of the beam shaping component, the threshold angle of the luminaire.