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while weather patterns are some of the most visible indicators of climate change, we are able to look at other patterns in the ecosystem as equally important measurements.  Among these patterns are jellyfish blooms, which are proliferating at an incredible pace. 

There are a number of factors contributing to the increase of jellyfish blooms, most of which are linked to global warming.  Jellyfish are thriving due to warmer and saltier waters as well as an increase in plankton growth.  In addition, overfishing has created a niche for jellyfish to exploit.  In years before predators were consuming much more of the ocean’s nutrients.  Now however, there is less competition leaving more for jellyfish.  This is also the case with agricultural runoff, where jellyfish are able to capitalize on the organisms feeding on the bacteria.  The current trend in climate change shows that the ice cover is melting much later in the spring, spawning more rapid and increased amounts of plankton growth.  There are various theories based on this evidence, but perhaps the strongest supports the idea that increased sunlight is favorable for the plankton.  This is especially true in colder regions such as the Bearing Sea, where scientists and fisherman alike have noticed drastic increases in jellyfish blooms.  But despite recent awareness, population control will only be a reality once the global climate patterns stabilize. For most, summer draughts mean hot days and dry gardens.  For jellyfish, however, it means saltier waters.  As rain becomes less frequent there is less fresh water entering the ocean.  Although it’s not the case with all jellyfish, most will benefit from a higher salt content.  This also relates to other predators and fish species, which are less tolerant of the salt increase and will often move from the coast into deeper, less salty waters.  As the ocean gets warmer and the water level rises, the jellyfish survival rate also goes up.  It creates the right conditions for jellyfish blooms to prosper, which results in a longer span of migration.  Now there are jellyfish species that are being labeled invasive.  Beachgoers have to swim with a new element of caution, unable to know which new species has moved in, and which has left. 

SIGHTINGS OF exotic snake pipefish, swarms of jellyfish and an “unprecedented” rise in sea surface temperatures indicate climate change is having a significant effect on Ireland’s marine ecosystems, according to a new report.Swarms of jellyfish, increased wave heights off the southwest coast and a greater variety of warm-water species in Irish waters have also been recorded by the authors of the report published today by the Marine Institute.

The authors noted that increases of sea surface temperature – at a rate of 0.6 degrees a decade – have been recorded since 1994. This is “unprecedented” in the past 150 years, the Marine Institute says.This temperature rise has been linked to an increase in microscopic plants and animals, along with species of jellyfish. The institute says increased numbers of most warm-water fish species have been observed in Irish waters.

Global climate change is fundamentally disrupting marine ecosystems, especially in the polar oceans, according to two new reviews of scientific research released Thursday in the journal Science.

Changes in temperature, ocean acidity and volume are affecting species from phytoplankton — the microscopic marine plants at base of the food chain — to polar bears, which may lose 68 percent of their summer habitat by 2100. "Climate change is affecting an enormously wide range of physical and biological aspects of the ocean," said John Bruno, a University of North Carolina marine ecologist and co-author of one of the reviews. "Once you start tweaking temperature, everything changes." Photosynthesis by phytoplankton is down six percent since the 1980s, and the organisms themselves are getting smaller thanks to warmer temperatures, the review noted.

Less plankton means less food for fish, which in turn means less seafood for human consumption. Phytoplankton also absorb carbon dioxide from the air and sequester it at the seafloor when they die and sink to the bottom of the ocean. Fewer phytoplankton could mean more human carbon dioxide emissions stay in the atmosphere, Bruno said, further exacerbating the climate change problem.