One of the many consequences of rising atmospheric carbon dioxide is ocean acidification—the lowering of seawater pH as CO2 chemically reacts with dissolved ions in seawater. Scientists have found that more acidic waters are dangerous to many species, especially structure-builders like corals, and thus the potential drop in pH predicted in the future would be devastating to marine habitats.
So it’s not surprising that many scientists are actively looking for ways to mitigate this for coastal ecosystems, where losses could be especially impactful ecologically and economically. But the answer may be right in front of them: marine life is already able to buffer drops in pH, finds new research in Scientific Reports.Continue reading “Marine Life Can Buffer Ocean Acidity, Study Finds”
Organisms’ immune systems are constantly trying to detect and boot freeloaders. No living thing is particularly willing to give up its hard earned resources to just any moocher that comes along, so all parasites must find a way past their hosts’ defenses and survive incessant attacks. Some constantly disguise themselves to move about undetected, while others mysteriously slip under the radar. Now, in a paper published this month in Nature, researchers have discovered one parasitic plant has evolved a remarkable way to survive: it creates small chunks of RNA to silence its hosts’ genes. Continue reading “Floral Hackers: Plant Parasites Use MicroRNAs to Shut Down Host Genes”
I also had a big year beyond the interwebs. I had a number of articles published in print-only magazines, with several pieces in Hana Hou!. And in August, my first book, Venomous, went to paperback!
2017 has been a rough year in many ways, but it’s also been one of trememdous joy. I embarked on a new adventure when I moved back to the mainland, trading the sunny shores of Oahu for the majestic forests of Washington. I started a new job working as an editor and writer for SciShow, which I am enjoying immensely. And, last but certainly not least, I got to meet my incredible daughter, Bianca, last June, and she has been bringing unbelievable amounts of joy into my life ever since.
Thank you to all of you who read this blog: let’s keep this bio-nerdy party going all through 2018!
If you’ve spent any time around roosters, you know that their “morning” crowing can be… loud. That distinctive cock-a-doodle-doo is piercing: if you happen to be standing near a rooster sounding off, you’re hit with a sound wave that’s about 100 decibels. That’s unpleasantly loud, like the whir of chainsaw. If one cock-a-doodled right in your ear, the sound is even louder—over 140 decibels. Sounds that loud can cause damage in less than a second, and are just shy of shattering your eardrum.
In 1992, Hurricane Andrew ripped it’s way across the southern US. Southern Florida, where Andrew made landfall, was one of the hardest hit areas. It’s estimated that over 100,000 homes were damaged, and 63,000 were destroyed—among them an expensive beachfront house with a very large and memorable aquarium. That aquarium contained six lionfish, and when it broke, they were swept into Biscayne Bay. And so began the lionfish invasion into the Atlantic. Continue reading “Dozens—Perhaps Even Hundreds—of Lionfish Likely Launched the Atlantic Invasion”
It’s kind of incredible how our fears can shape our behaviors. When Jaws was released in 1975, it fundamentally changed how we interact with sharks. In the years that followed, we hunted these large marine predators more intensely, and came to view them as terrible monsters—attitudes scientists still fight to this day. But while our fears are largely unfounded, there are lots of species that have good reason to be wary of these awesome fish. Scientists have now discovered that such fear can ripple through the reef ecosystem, impacting community structure all the way down to seaweeds.
There’s no doubt that sharks can be a bit terrifying, especially if you’re a snack-sized fish. Scientists have long suspected that such fear can alter behavior. Just like people that are scared of sharks avoid beach vacations, preyed upon fish might try to avoid areas where sharks roam in the hopes of steering clear of those sharp, pointy teeth. And where the fish avoid, the species they eat proper, a marine version of ‘when the cat’s away, the mice will play.’ Thus by creating landscapes of fear—or, in this case, seascapes—sharks could shape entire ecosystems even if the amount of prey they actually consume is negligible.
Not only do we not know how fear of sharks might shape marine habitats, our overall understanding of how sharks interact with other species is lacking. Despite our annual fin-fests and obsession with these fearsome fish, “we still only have a very basic understanding of their ecological roles in nature,” said Doug Rasher, a senior research scientist at Bigelow Laboratory, in a press release. So he and his colleagues decided to look a little closer, zeroing in on the impacts of sharks on shallow reef habitats off the coast of Fiji.
The well-lit, shallow lagoons of Fiji’s largest island, Viti Levu, are ideal habitat for tasty seaweeds like Turbinaria conoides, a favorite of herbivorous fish. Since the islanders established a no-take reserve protecting the fringing reef of Votua Village, Korolevu-i-wai, in 2002, the abundance of seaweeds has dropped dramatically, particularly in the more isolated back reefs, making room for corals to rebound. But not all areas of the lagoons are equally seaweed-free. The algae remain in the shallowest reef tops. Rasher and his colleagues wanted to understand why.
The research team put GoPros in the water to observe which fish were eating algae as well as when and where sharks were moving around the lagoons. They also surveyed for the presence of algae-eating fish during high and low tides, and to determine seaweed location and abundance. In addition, they calculated fish feeding rates on algae in shallow and deeper back reef areas during different tidal phases by deploying measured amounts of algae for the fish to snack on.
When they brought all that data together, a clear pattern emerged. The biggest predators like blacktip reef sharks (Carcharhinus melanopterus), whitetip reef sharks (Triaenodon obesus,) and tawny nurse sharks (Nebrius ferrugineus) only entered the back reefs when tides were high—the researchers estimated that on average, each 40 square meter section of backreef is trawled by 4 to 5 reef sharks and 1 jack during each high tide. And when that happened, the herbivorous fishes like unicornfishes (Naso lituratus and N. unicornis) pretty much stopped eating and disappeared, presumably steering clear of the meandering predators.
That meant that the shallow reef tops received very little attention by the algae-eaters, as they could only be accessed when the reef sharks entered the shallows to feed. And in turn, those reef tops sported about 20 times the amount of seaweed. The researchers ruled out the possibility that these algae just do better on the reef tops for other reasons, like increased amounts of light, by comparing the growth rates of caged weeds in both areas. So the stark difference between the tops and deeper troughs in the backreef appears to be driven mostly by the fish’s fear of sharks.
A 2013 study in Shark Bay, Australia, had similar results, finding the risk of tiger shark predation affected the nature and abundance of seagrasses. Combined, they paint a much more interesting picture of the role sharks play in marine habitats. Their effects go far beyond what they consume directly, so their mere presence can “actually shape the way [an ecosystem] looks and functions,” explained Rasher.
On the practical side, these results suggest that we might be able to reduce our fishing impacts by taking this kind of thing into account. “Our example highlights the need to consider predator effects in ecosystem-based management,” the authors write in their conclusions. “With knowledge of predator movements and resultant herbivore migrations, resource managers could mitigate this negative human impact in similar ecosystems by regulating not only where but when herbivores are harvested.”
And ultimately, they underscore the need to better understand the ecological importance of sharks and other large predators. “Large apex predator sharks as well as the large mesopredator reef sharks studied here are now generally rare or absent on coral reefs exposed to heavy fishing pressure; thus, the effects we documented may already be extinguished from many places,” the authors write. “Despite these difficulties, we need to study Earth’s remaining wild places where predators still abound, and capitalize on chance events and variability in nature… Only then can we understand the ramifications of predator loss or recovery.”
Citation: Rasher et al. 2017. Cascading predator effects in a Fijian coral reef ecosystem. Scientific Reports 7, 15684. doi:10.1038/s41598-017-15679-w
From touchdown dances to victory laps, we all love to bask in the glory after a big win. So do mangrove crabs. After a fierce physical altercation, victorious male crabs sometimes stridulate, planting one claw into the ground and rubbing it vigorously with the other to both visibly and audibly revel in their triumph. But the purpose of this gloating was unclear, as little research has examined the consequences of such victory displays. Now, a new paper in Ethology may have an explanation: rejoicing discourages the losing crabs from attempting a rematch. Continue reading “Crab Gloats After Winning To Discourage Rematches”
Few groups of animals are as feared as spiders. Doctors estimate at least 5% of people are arachnophobic, meaning they are terrified of the eight-legged critters. But such fear is largely misplaced. Of the nearly 47,000 species of spider on the planet, only 200 or so can actually bite through our tough skin and deliver venom that causes any kind of reaction. And of those, only a few are considered truly dangerous. Rather than fearing them, we should be in awe of just how incredibly diverse, successful, and unique these animals are.
Humans in North America only spend one night a year in costume with the hopes of feasting on tasty treats. For Zodarion spiders, that’s just called Tuesday. These clever mimics pretend to be ants to sneak close to their prey. And if in danger, they’ll use the corpse of their latest capture to complete the charade. Continue reading “Real Halloween Horrors: Corpse Cosplay by Zodarion Spiders”