Link to my CSUCI research page
Tuesday, July 24, 2012
Ocean Issues: "Ecological" fish farming
Continuing a long tradition of creative marketing the Pangasius catfish, also called "white ruffy" or "swai", is becoming a popular product of aquaculture in many parts of the world. The Consumerist has more on creative marketing of fish products and "how there's no such thing as white ruffy" here.
A recent story from Marketplace.org discusses attempts to create a sustainable and environmentally stable aquaculture program for this fish. One of the many beneficial characteristics of pangasius is that, unlike carnivorous fish like salmon, it has a vegetarian diet, which makes for a more efficient energy conversion of the feed into biomass.
Read the full story here.
Tuesday, July 17, 2012
Ocean Innovation: Marine "vacuum" drone
We need innovative solutions for growing problems in our ocean environments - like the
accumulation of plastic debris in our oceans. Eliea Hovi and collaborators propose an autonomous marine drone to collect plastic garbage for disposal. Story via tgdaily.
accumulation of plastic debris in our oceans. Eliea Hovi and collaborators propose an autonomous marine drone to collect plastic garbage for disposal. Story via tgdaily.
Sunday, July 15, 2012
Conservation Biology: Coral reefs in trouble
Sad realism in a NY Times story on the future of coral reefs.
Consensus Statement on Climate Change and Coral Reefs from the recent International Coral Reef Symposium.
The international Coral Reef Science Community calls on all governments to ensure the future of coral reefs, through global action to reduce the emissions of carbon dioxide and other greenhouse gases, and via improved local protection of coral reefs. Coral reefs are important ecosystems of ecological, economic and cultural value yet they are in decline worldwide due to human activities. Land-based sources of pollution, sedimentation, overfishing and climate change are the major threats, and all of them are expected to increase in severity.
Changes already observed over the last century:
Approximately 25-30% of the world’s coral reefs are already severely degraded by local impacts from land and by over-harvesting.
The surface of the world’s oceans has warmed by 0.7°C, resulting in unprecedented coral bleaching and mortality events.
The acidity of the ocean’s surface has increased due to increased atmospheric CO2.
Sea-level has risen on average by 18cm.
By the end of this century:
CO2 emissions at the current rate will warm sea surface temperatures by at least 2-3°C, raise sea-level by as much as 1.7 meters, reduce ocean pH from 8.1 to less than 7.9, and increase storm frequency and/or intensity. This combined change in temperature and ocean chemistry has not occurred since the last reef crisis 55 million years ago.
Other stresses faced by corals and reefs:
Coral reef death also occurs because of a set of local problems including excess sedimentation, pollution, habitat destruction, and overfishing.
These problems reduce coral growth and vitality, making it more difficult for corals to survive climate changes.
Future impacts on coral reefs:
Most corals will face water temperatures above their current tolerance.
Most reefs will experience higher acidification, impairing calcification of corals and reef growth.
Rising sea levels will be accompanied by disruption of human communities, increased sedimentation impacts and increased levels of wave damage.
Together, this combination of climate-related stressors represents an unprecedented challenge for the future of coral reefs and to the services they provide to people.
Across the globe, these problems cause a loss of reef resources of enormous economic and cultural value. A concerted effort to preserve reefs for the future demands action at global levels, but also will benefit hugely from continued local protection.
Consensus Statement on Climate Change and Coral Reefs from the recent International Coral Reef Symposium.
The international Coral Reef Science Community calls on all governments to ensure the future of coral reefs, through global action to reduce the emissions of carbon dioxide and other greenhouse gases, and via improved local protection of coral reefs. Coral reefs are important ecosystems of ecological, economic and cultural value yet they are in decline worldwide due to human activities. Land-based sources of pollution, sedimentation, overfishing and climate change are the major threats, and all of them are expected to increase in severity.
Changes already observed over the last century:
Approximately 25-30% of the world’s coral reefs are already severely degraded by local impacts from land and by over-harvesting.
The surface of the world’s oceans has warmed by 0.7°C, resulting in unprecedented coral bleaching and mortality events.
The acidity of the ocean’s surface has increased due to increased atmospheric CO2.
Sea-level has risen on average by 18cm.
By the end of this century:
CO2 emissions at the current rate will warm sea surface temperatures by at least 2-3°C, raise sea-level by as much as 1.7 meters, reduce ocean pH from 8.1 to less than 7.9, and increase storm frequency and/or intensity. This combined change in temperature and ocean chemistry has not occurred since the last reef crisis 55 million years ago.
Other stresses faced by corals and reefs:
Coral reef death also occurs because of a set of local problems including excess sedimentation, pollution, habitat destruction, and overfishing.
These problems reduce coral growth and vitality, making it more difficult for corals to survive climate changes.
Future impacts on coral reefs:
Most corals will face water temperatures above their current tolerance.
Most reefs will experience higher acidification, impairing calcification of corals and reef growth.
Rising sea levels will be accompanied by disruption of human communities, increased sedimentation impacts and increased levels of wave damage.
Together, this combination of climate-related stressors represents an unprecedented challenge for the future of coral reefs and to the services they provide to people.
Across the globe, these problems cause a loss of reef resources of enormous economic and cultural value. A concerted effort to preserve reefs for the future demands action at global levels, but also will benefit hugely from continued local protection.
Conservation Biology: Coral reefs part II
Conservation Biology: Signs of success in Olympic Peninsula river restoration
The Los Angeles Times has an encouraging story of early signs of success in a river restoration in Washington's Olympic Peninsula. After re-establishing access to reaches of the river previously blocked by hydroelectric power dams, and steelhead restocking efforts, biologists have found evidence of wild steelhead presence as well as evidence that fish are reproducing in the river. Full story here.
Image via.
Image via.
Tuesday, July 10, 2012
Conservation Biology: Wildlife crossings
A study by Caltrans and the National Park Service found that improving wildlife crossings of the 23 freeway in Simi increased the frequency of use of those crossings by large mammals and reduced roadkill. The project installed 12 wildlife gates and cleared three culverts to make them accessible as freeway crossings and improved fences to deter animals from crossing the freeway. Cameras were installed and surveys conducted by the NPS monitored the impact of these improvements on wildlife. Image via
Full story at the VC Star
Full story at the VC Star
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