fish

My Goldfish is smarter than your 5th grader

Did you ever keep a Goldfish? They really don’t get enough credit. 

Goldfish learning to Drive

Goldfish learning to drive. Photo: Rosen Zyulun via CNN

A research team at Ben-Gurion University developed a FOV (Fish Operated Vehicle) rigged up with LIDAR, a computer, camera, omni-wheels, and an electric motor that gave Goldfish control of the vehicle. 

Each of 6 Goldfish got 10 driving lessons and when they reached their target they were rewarded with food. 

Just like with humans, some of the fish were better at driving than others. 

Previous studies using a saltwater fish, the Cleaner Wrasse, have shown fish to be self aware, and this study takes fish intelligence a step further.

Fish are able to navigate around in their own environments without any issues, but now we know (at least with Goldfish) that they have the cognitive capability to navigate outside its natural environment! This opens up whole new possibilities for studying the navigational abilities of different animals. 

Work done a few years ago found that Sea Turtles off the coast of Africa were able to navigate back to the beaches of their birth, even after getting way off course, using the equivalent of Sea Turtle GPS. 

What do you think we will learn next? 


If you would like to learn more about the Goldfish study, check out this article link: 

https://www.cnn.com/2022/01/10/world/goldfish-drive-intl-scli-scn/index.html

Microplastic Trapping Corals

Which of these catches more plastic particles- sand beds, coral reefs, sea grass beds, or macro-algae?

A study released last month by Jaco C. de Smit et al. looked at how different nearshore habitats trap and collect micro plastics.

They looked how sand/ sediment bed, sea grass, macro algae, and Stylophora (coral) were able to trap 2 different sizes of micro-plastics- 2.5mm and .5 mm.

What they found is that habitats with more complex structures trapped a higher amount of micro-plastics, but the area which trapped the most micro plastics was the sediment, which trapped 1 to 2 times more than any of the other areas.

The reason they believe this happened is because of the near-bed turbulent kinetic energy which is a contributing factor to sediment trapping.

Of the 2 different sizes of microplastics that were trapped, the .5mm particles seemed to be trapped more frequently than the 2.5 mm particles.

We already know micro-plastics are an issue, why does study this matter?

Nearshore ecosystems, like sea grass beds and coral reefs are hugely productive ecosystems and act as nurseries for many species of fish and sharks. According to this study they have large capacity for sequestering plastic. With these areas that are used by animals in vulnerable life stages, being inundated with micro plastics, it is much easier for them to get ingested and cause issues starting from early on. If the inhabitants of these area start to have issues, so too with the areas themselves.

To read their full article search here.

When Home Doesn't Sound Like it Used To

Waves crashing on the beach

Waves crashing on the beach

What does your home sound like? Is it quiet? Loud? Are there kids playing or dogs barking? Do you hear trains or traffic in the background?

    If you think about it, our homes have a certain sound. Are you having a hard time figuring out what that sound is? Think about the last time you went away and had a hard time falling asleep because you missed the sounds of home.

    Just like our homes and habitats have a certain sound, so to do ocean ecosystems. (Check out my video of Aquarium of the Pacific, Pacific Visions sounds on the reef exhibit to hear what a reef sounds like) Now though, with increasing amounts of anthropogenic influences, aquatic habitats don’t sound the same and animals like Clownfish and whales, who use sound to navigate are having issues. 

While noise pollution might not seem like that big of a deal, it has had increasingly larger impacts on marine life. As anthropogenic noises (air guns, seismic testing, oil drilling platforms, cargo ships, speed boats, pile drivers, etc.) increase, the animals living in the oceans are facing more and more problems.

Consider the last time you were somewhere and you encountered a loud or unpleasant noise. What did you do? Most likely you left the area, which is what some of the larger species like whales and dolphins will do. Animals will often change their course to avoid loud areas like shipping lanes. But what about those smaller sessile species who can’t get away? They have been found to slowly migrate, leaving their native areas all together. Another example of issues it causes is one experienced by Clownfish. In their larval state they live in open water and as they grow they use sounds to help them navigate back to the reefs they will live on. With all the noise pollution, they are unable to tell which direction they need to swim to get to their reef.

  A recently released literature review looked at different studies done around the world with respect to aquatic species and noise pollution. The study’s authors looked at more than 10,000 papers about marine bio-acoustics from the past 20 years with the goal of compiling information that can be used to create policies that will bring about change. 

Researchers point out that noise pollution can cause physical damage to the animals. Some fish can regenerate cells used for auditory purposes, but mammals likely don’t have that ability. 

So, what can be done? While international cargo shipping, and oil drilling is not going to stop, there are changes that can be made to mitigate our impacts on the watery world and its inhabitants.

  1. By moving shipping lanes, we can locate them in areas that have as small of an impact as possible. 

  2. Reducing the speed of traveling vessels will help to reduce noise pollution they cause. 

  3. Changing the types of propellers used to ones that produce fewer cavitation bubbles will quiet them.

  4. Creating areas with sound barriers for oil platforms and deep sea drilling can reduce the impacted areas. 

    One of the unique, yet unplanned facets of this review is that the authors got to see the results of reduced noise pollution due to the pandemic slowdowns in commercial shipping. Dr. Carlos Duarte, the paper’s lead author said “Recovery can be almost immediate” as marine mammals and sharks began to return to areas when the shipping traffic slowed during 2020.  

    In the example at the beginning, when considering out home ecosystems, it should be noted that they are not quite, and nor are the oceans. Fish, marine mammals, and other organisms use sound to communicate with croaks, pops, snaps,  and songs. Waves crash, rocks tumble, and water splashes. The goal of this research is not to show us that we need to eliminate the noise we add to the oceans, but to work to make sure that our actions do not take away from the natural sounds of ocean habitats. 


To read the full article search for:  

“The Soundscape of the Anthropocene Ocean”. Carlos Duarte et al. 

Science 05 February 2021 ,Vol 371 Issue 6529


Last Minute Holiday Gift Ideas

Proud Pour's Rose for Reefs is a great gift to give a wine lover. Part of the proceeds from each bottle goes to support SECORE a coral restoration organization.

Proud Pour's Rose for Reefs is a great gift to give a wine lover. Part of the proceeds from each bottle goes to support SECORE a coral restoration organization.

Tis’ the season of gift giving. This year more people are seeking to give affordable Eco-friendly gifts and experiences, so it’s the perfect time to share some of my favorite brands.

Price Guide:

$- $0-$10

$$- $10-$20

$$$-$20-$30

$$$$-$30+

  • Dang Cute Fish designs are made by a boss babe, aquarium curator, and Mom. Products are affordable, and come in sustainable Eco-friendly packaging. $

  • Proud Pour wines and cider where every purchase supports a conservation organization. $$

  • LUSH USA bath, body, and beauty products are Eco-friendly and many have zero waste packaging. Prices range from $-$$$$

Beautiful, handmade earrings by The Rosie Finn are colorful and light weight.

Beautiful, handmade earrings by The Rosie Finn are colorful and light weight.

  • The Animal Behavior Center membership is my number one recommendations for people who are interested in training and working with any kind of animal. You get a year long membership, with access to members only podcasts, training, and resources, as well as regular q&a with founder Lara Joseph. $$$$

Octopus, Sharks, Sea stars, Jellyfish, Sharks, and Seahorses are just a few of the animals up for Aquadoption at Heal the Bay Aquarium.

Octopus, Sharks, Sea stars, Jellyfish, Sharks, and Seahorses are just a few of the animals up for Aquadoption at Heal the Bay Aquarium.

Do you have a favorite sustainable or Eco-friendly brand? Let me know!




Fish Traveling Via Duck Poo

Male and Female Mallard Duck. Photo by MDC Staff, courtesy Missouri Department of Conservation.

Male and Female Mallard Duck. Photo by MDC Staff, courtesy Missouri Department of Conservation.

What ways can fish eggs be spread? You thought I was talking about different crackers to use with caviar didn’t you?

In your biology courses, you may have learned there are many different ways seeds, invertebrates, and even larvae of insects are able to disperse over large ranges and to unexpected locations, but can the same be said for fish eggs?

Up until recently the answer to that was no (with the exception of Killifishes), however a paper released in July 2020 by Adam Lovas-Kiss et al. learned something interesting when it comes to waterfowl.

Mallard ducks, a migratory waterfowl, already known for their ability to disperse both aquatic and terrestrial plants were chosen to use in the study and due to their similarity to most teleost fish, researchers chose to use 2 types of fertilized carp eggs- Common Carp and Prussian Carp.

The ducks were individually housed and were each force fed the fertilized eggs (Common Carp in the first experiment and Prussian Carp in the second). After the eggs were ingested, their feces were collected after 1,2,4,6,8,12, and 24 hours.

After the feces were soaked in river water and each sample sifted through this is what they collected:

.2% (8) of the Common Carp eggs

.25% (10) of the Prussian Carp eggs

All but 1 of which, were recovered from the feces within the first hour after ingestion, with the outlier egg being recovered between 4 and 6 hours after ingestion.

Of all the eggs that passed through the Mallards’ digestive systems, 2 Prussian Carp eggs hatched and 1 Common Carp egg hatched! The males passed more eggs than females (15 to 3) and only the eggs passed by the males hatched after they were recovered. It should be noted that all of the hatched fish, both those in the control group and those ingested by the ducks eventually died of fungal infections.

These findings open up and invite many future studies that could look at the traits of fish as well as other waterfowl and their ability to act as a means of dispersal for embryonic fish.

Experimental evidence of dispersal of invasive cyprinid eggs inside migratory waterfowl

Ádám Lovas-Kiss, Orsolya Vincze, Viktor Löki, Felícia Pallér-Kapusi, Béla Halasi-Kovács, Gyula Kovács, Andy J. Green, Balázs András Lukács

Proceedings of the National Academy of Sciences Jul 2020, 117 (27) 15397-15399; DOI: 10.1073/pnas.2004805117