1. A method of enhancing growth of aquatic organisms in an aqueous mineral-containing electrolyte which comprises:
- (a) installing a cathode and an anode in the electrolyte,
- (b) applying a steady, pulsed or intermittent direct electric current across the cathode and the anode to effect electrolysis,
- (c) providing accreted mineral material on the cathode,
- (d) recruiting aquatic organisms on or in the vicinity of the cathode, and
- (e) creating by electrolysis conditions of higher alkalinity in the electrolyte in the vicinity of the cathode than in the electrolyte remote from the cathode to cause growth of the aquatic organisms in the conditions in the vicinity of the cathode, the placement of the anode being done in such a way as to minimize the effects of hydrochloric acid produced at the anode.
2. A method according to claim 1 wherein the mineral-containing electrolyte is selected from sea water, brackish water or brine.
3. A method according to claim 1 wherein the accreted mineral material is deposited on the cathode by the electrolysis.
4. A method according to claim 1 wherein the accreted mineral material is pre-fabricated material which has been electrodeposited previously and which is fixed to the cathode.
5. A method according to claim 1 wherein the cathode is seeded with the aquatic organisms.
6. A method according to claim 1 wherein the cathode is settled naturally by the aquatic organisms.
7. A method according to claim 1 wherein the aquatic organisms are organisms which deposit calcareous substances.
8. A method according to claim 7 wherein the organisms are selected from corals and calcareous algae.
9. A method according to claim 7 wherein the organisms are selected from bivalves, worms, protozoans, sponges and crawling organisms including snails and echinoderms.
10. A method according to claim 1 wherein artificial lighting is used adjacent to the cathode to attract food.
11. A method of creating conditions of increased electron availability for the biochemical electron transport chain of aquatic organisms in an aqueous mineral-containing electrolyte which comprises:
- (a) installing a cathode and an anode in the electrolyte,
- (b) applying a steady, pulsed or intermittent direct electric current across the cathode and the anode to effect electrolysis,
- (c) providing accreted mineral material on the cathode,
- (d) recruiting aquatic organisms on or in the vicinity of the cathode, and
- (e) creating by electrolysis conditions of higher alkalinity in the electrolyte in the vicinity of the cathode than in the electrolyte remote from the cathode to cause growth of the aquatic organisms in the conditions in the vicinity of the cathode, the placement of the anode being done in such a way as to minimize the effects of hydrochloric acid produced at the anode.
12. A method for the construction, repair and maintenance of structures in an aqueous mineral-containing electrolyte which comprises:
- (a) installing a cathode and an anode in the electrolyte,
- (b) applying a steady, pulsed or intermittent direct electric current across the cathode and the anode to effect electrolysis,
- (c) providing accreted mineral material on the cathode,
- (d) recruiting aquatic organisms which deposit calcareous substances on or in the vicinity of the cathode,
- (e) creating by electrolysis conditions of higher alkalinity in the electrolyte in the vicinity of the cathode than in the electrolyte remote from the cathode to cause growth of the aquatic organisms in the conditions in the vicinity of the cathode, the placement of the anode being done in such a way as to minimize the effects of hydrochloric acid produced at the anode, and
- (f) accumulating deposited calcareous substances on or in the vicinity of the cathode to form, repair or maintain a structure on or in the vicinity of the cathode.
13. A method of enhancing growth of aquatic organisms in an aqueous mineral-containing electrolyte which comprises:
- (a) installing a cathode and an anode in the electrolyte,
- (b) applying a steady, pulsed or intermittent direct electric current across the cathode and the anode to effect electrolysis,
- (c) providing accreted mineral material on the cathode,
- (d) recruiting aquatic organisms on or in the vicinity of the cathode, and
- (e) creating by electrolysis conditions of relatively high alkalinity and relatively high electron availability at the cathode (compared to the electrolyte remote from the cathode) so that the aquatic organisms grow in these conditions.
