The world moves by ship 鈥 and so do invasive species.
Shipping accounts for more than 80 per cent of the world鈥檚 commodities transportation, with port cities like Halifax playing critical roles in global trade. To help stay buoyant and balance their cargo, container ships gather and dump ballast water as they travel, bringing seawater from around the world into their hulls and dumping it as needed.
The problem is that ballast water is not just water. It often contains species: various bacteria, phytoplankton and other microorganisms. And this unexpected cargo is dropped off in harbours halfway around the world, where species never meant for a certain climate can quickly cause rapid damage to marine ecosystems.
Little wonder that the United Nations International Maritime Organization, has declared invasive marine species as one of the four greatest threats to the world鈥檚 oceans. And the impacts of invasive species are most often irreversible, unlike other forms of marine pollution where ameliorative action can be taken to encourage recovery.
麻豆传媒 is doing its part to help. A new ballast water facility within the Aquatron Laboratory is now up and running, with Trojan Technologies as its first user. The international water treatment corporation, headquartered in London, Ont., is using the facility to test products that treat ballast water, in line with new international regulations requiring every ship using ballast water to have approved systems that prevent the spread of invasive species.
鈥淲e鈥檙e very pleased to be the first users of this facility,鈥 said Trojan President and CEO Marvin DeVries at a walkthrough this Thursday. 鈥滻t creates tremendous flexibility in terms of the water that can be tested, and the large flows. That鈥檚 critically important not only to us, but to the regulators who need to have an independent verification.鈥
Mad flows
He鈥檚 not kidding about those flows.
鈥淢any other facilities can pump at about 200 or 300 cubic metres per hours,鈥 explains John Batt, Aquatron manager. 鈥淏ut if a company is testing a product that would run 800, 900 or even 1,200 cubic metres per聽 hour aboard one of these large ships, they鈥檇 then have to use mathematical analysis to extrapolate that data. We don鈥檛 have to do that.
These pumps will allow us to run water at 1,250 cubic metres per hour.
"We would drain a standard Olympic-sized swimming pool in about 30 minutes.鈥
Testing ballast water at the Aquatron involves existing resources鈥攕uch as its pool tank鈥攂ut also new facilities that stretch into the still under-construction Oceans Excellence Centre. These include four large, concrete tanks 鈥 three of them sized at 300 cubic metres, the other at 400 cubic metres. These are connected by an intricate piping and valve system, allowing 麻豆传媒 or industry researchers to bring in either fresh or salt water, treat it with UV rays to eliminate microorganisms, then test the effectiveness of the treatment.
The facility is so state-of-the-art that it can be operated remotely by computer. Mr. Batt even has an iPad tool to adjust the system as needed.
Meeting the needs of both Dal and industry
Trojan鈥檚 products are already being tested on-site. (Don鈥檛 worry: Aquatron staff are working closely with PCL construction to ensure everyone is operating safely as construction on the Oceans Excellence Centre continues.) But the new facilities will also aid Dal researchers.
In fact, when designing the system, Aquatron staff consulted with researchers across the university who might make use of the expanded facilities. It was through their feedback that the three 300 metre cubed tanks were all made the same size鈥攆or repetition in testing鈥攁nd the fourth tank was designed so that it could also accommodate research examining the exchange of gases between the ocean and the atmosphere. Doug Wallace, Dal's Canada Excellence Research Chair in Ocean Science and Technology, is an international expert in just this sort of research.
Another Dal researcher, oceanographer John Cullen, was along for the tour.
鈥淚t鈥檚 really exciting and interesting to me because the scientic issues that arise are really cool, and [they are] problems that we鈥檝e been studying as oceanographers for years and years, sometimes in entirely different contexts,鈥 said Dr. Cullen. He notes that his team has done research on the effects of ultraviolet radiation on phytoplankton, but for an entirely different reason: they were looking at how ozone depletion would affect small ocean organisms.
It鈥檚 that sort of collaboration between world-class infrastructure and world-renowned researchers that makes 麻豆传媒鈥檚 Aquatron such an exciting facility, and the ideal location for ballast research, as 麻豆传媒 Vice-President Research Martha Crago pointed out prior to the tour.
鈥淭he new expansion to [the Aquatron鈥檚] tanks now makes it a singular facility in North America for joint university-industry research addressing ballast water as well as other critical marine environmental issues," she said.