Fishing With Bears: An Interview With Larry Quilling

Here is the last post in the four part series that started with my investigation into the difference between anadromous and catadromous fish (a difference which you can learn about HERE).  My investigation resulted with me contacting Dr. Joe Richardson, Wallace Westfeldt, and Larry Quilling, three people with an enormous quantity of knowledge when it comes to the different fish that fit under both categories.  We've already heard from Dr. Joe and Wallace with a post featuring each of them (Dr Joe's post HERE and Wallace's post HERE), and now it's time to hear from Larry Quilling!  The youth director for Boulder Flycasters and a member of the Board of Directors of Trout Unlimited, whose mission is to conserve, protect, and restore cold water fisheries.  Larry is another one of the expert fisherman that came into my Outdoor Ed class last year to teach us how to fish.  He took us down to Viele Lake, the lake right next to my high school, and we did our best to reel in some dinner!  (Except you would probably not want to eat the fish in Viele Lake, the lake is pretty stagnant and foul.)  I remembered that Larry had mentioned that he had fished for salmon alongside grizzly bears, and so I knew he would be a good person to contact in regards to salmon fishing!  I've reproduced the interview here for everyone to read: there are some pretty awesome pictures within!

Larry Quilling holding a spring Chinook salmon in the Trask River in Oregon!

The Natural World:  In the last few blog posts, we've been talking about anadromous fish, and focusing specifically on the mass migrations of salmon.  What experience do you have when it comes to these mass migrations?

Larry Quilling: I have a good friend whom I visit in Oregon every summer and winter when possible to fish for steelhead trout and salmon.  Here are a few pictures of Tom and I fishing the Oregon coast. Tom has a cabin on the Trask River near Tillamook where I love to fish for spring Chinook. We regularly head to the Columbia River in the late summer where we fish for them as well. The fish I catch in the Trask in late summer are spring spawn fish still held over from the spring run. You will notice their colors morph from the bright silver to dark green and beyond once in the rivers.

Fall Chinook(Kings) from the 2013 Columbia River Trip.

Trask Spring Chinook, 2013

Tom's daughter Margie with a steelhead.

TNW:  I remember you mentioned fishing in Alaska last year.  Do you have any pictures from that?

LQ:  Tom and I went to King Salmon, Alaska two summers ago. The pictures below are from the NakNak River and Katmai National Park.

Fishing with the bears in Katmai. We were fishing just 60-70 yards upstream of these guys. They are all fishing for the sockeye run.

Tom's King from the NakNak.

Me with a a NakNak sockeye.

Patricia and I with a sockeye.

TNW: Tell me more about fishing with the bears! Were they good about maintaining their distance, or did you have any encounters which were a little too close for comfort?

LQ:  Fishing just downstream of the floating bridge at Brooks lodge, I hooked a sockeye.  The commotion and splash alerted another interested party on the other side of the bridge who swam underneath to come see what was going on.

This young griz came to investigate. He is standing right where I was in the previous picture! We took this picture after I landed my fish and got the hell out of there. Rangers were yelling at me the whole time but no one told me the break off my fish.

A picture of my catch....

....and a pose with my fishing partner.

What an incredible opportunity to go fishing so close to wild grizzly bears!  Thanks again for taking the time to talk with me Larry, and we hope to hear from you again soon!  To learn a little bit more about Larry, you can check out his profile on the Boulder Flycasters website HERE!


Unless otherwise noted, the photo credit for all of the photos in the post goes to Larry Quilling.

Migrating Fish: Anadromous or Catadromous?

According to Merriam-Webster's online edition, the word "anadromous" means "ascending rivers from the sea for breeding."  This word is almost always used in conjunction with fish, as they are the main type of animal that do this.  There are a number of fish that are defined as anadromous, but of particular import for us are several types of salmon, including the Coho, steelhead, Chinook, and sockeye salmons.

You don't have to be in a school (of fish) to hypothesize that there might be a group of fish that behave in an opposite manner from the anadromous fish.  "I'll take the bait," you're saying.  "What's the opposite of an anadromous fish?"  Let's break the word apart.  First, we can break off the root "ana," a Greek root which means "up."  For you chemistry buffs out there, you might have felt an electric current running up your spine, as you've probably thought of the word "anion," a term used to describe an ion that contains more electrons than it does protons, giving the atom an overall negative charge.  If you follow the flow of my logic*, you might be thinking of the opposite of an anion: a "cation," or an ion that contains fewer electrons than it does protons, giving the atom an overall positive charge.  So judging from this chemistry example, you can either conclude that, A) The opposite of anadromous is likely something along the lines of "catadromous," or, B) I give really long and tangential comparisons that are neither helpful or correct.  Fortunately for you guys, option A is the correct one.  The opposite of an anadromous fish is, indeed, a catadromous fish.  To learn more about the life cycle of a catadromous fish, let's travel to the eastern coast of North America, and meet Anguilla rostrata, the North American eel.  (And yes, eels are a type of fish.)

To learn more about the life cycle of the North American eel, I consulted the website of the Penobscot River Restoration Trust.  According to the Trust, mature Anguilla rostrata leave their brackish or freshwater homes and migrate to the Sargasso Sea in the fall.  The Sargasso Sea is not actually a distinct sea, but instead a large region of the Atlantic Ocean where a holopelagic species of seaweed called Sargassum reproduces.  The term "holopelagic" simply refers to the fact that, unlike other seaweeds, Sargassum does not require the presence of the ocean floor to reproduce, and can instead reproduce while just floating around in the ocean, or in the pelagic zone.  In turn, the pelagic zone is simply defined as an area of a body of water that is neither close to shore nor close to the bottom.  I remember when my family and I went on the Tybee Island Ecology Tour with Dr. Joe Richardson several years ago in Georgia, Dr. Joe commented on the large amount of Sargassum that was on the beach that day.  I've recently talked with Dr. Joe about the Sargassum, as well as the North American eel, and this interview will be the subject of our next post.

As winter rolls around, the adult eel spawns....then dies.  Sad day for the grown up eels.  Their eggs, however, hatch after a few days, and the young develop into a larval stage (which are then called leptocephali) that simply drift around for a few months.  Their days of floating casually around the ocean end as they enter the Gulf Stream, and are carried north towards North America.  Once the larvae find themselves near the continental shelf, they transform into what are called "glass eels," miniature little eels that, as you could probably guess from the name, are transparent!

It's not over for these eels yet, though!  Next, the young reach the estuaries, transitional areas along the coast where the rivers meet the sea.  Once the summer rolls around, it is in the estuaries that the eels enter the next stage of their life.  In this phase, the young eels are called "elvers," a name for a juvenile fish that is specific to eels.  After making their way into their adult habitat, they finally develop into their adult morph, where some eels stay for 8-25 years before migrating back to spawn in the sea!  

So there's a perfect example of a fish with a catadromous lifestyle.  Or, rather, nearly perfect.  In more recent years, scientists have begun to discover that while some adult North American eels fit well under the catadromy heading, other members of the exact same species simply stay in the estuaries to mature, while still more travel back and forth between the estuaries and the fresh water habitats further upstream!  This has caused many scientists to reconsider the stance of a purely catadromous lifestyle for these eels, and revise their description to "facultative catadromy," which essentially means that these eels seem to be able to choose whether or not they want to commit to a fully catadromous lifestyle.  But what about an anadromous fish, like the Chinook and Coho salmon that we mentioned earlier?  Don't worry, I'm not going to flounder: I know that if you're still reading this, then you're probably hooked, and want to hear more.

Speaking of hooked: my fishing contact Larry Quilling with a spring Chinook salmon in the Trask River in Oregon.  Check back soon to see an interview with Larry about his experiences fishing salmon!  Photo Credit: Larry Quilling

When it comes to the lives of several of the species of Pacific salmon, the saying "When the going gets tough, the tough get going" really applies quite nicely.  One of the keystone species in the American northwest, the annual "salmon run" is incredibly important to the functioning of the ecosystem.  During the salmon run, millions upon millions of these fish travel upstream to their breeding grounds.  Some travel up to 900 miles, as is the case for many Chinook and steelhead salmon who make their home in Idaho, as seen below.  The Chinook females also build an enormous nest, called a redd, that can be one to four feet deep and around six feet in diameter!  

Here we have another one of my fishing contacts, Wallace Westfeldt, with a steelhead in Idaho.  Wallace was also kind enough to help me out a lot, and we will also be seeing an interview post with him soon!  Photo Credit: Wallace Westfeldt

Another fascinating thing to note is the incredible transformation of these salmon, especially the males, as they travel upstream.  My personal favorite is the transformation of the sockeye salmon, whose changes can be seen in the picture below.  

With their fisshin accomplished, most salmon species die once they reach their spawning areas, just like the North American eel.  However, unlike the Pacific salmon, some individual Salmo salar, or Atlantic salmon, live to tell their gilling tale to future generations of salmon.  Not all Atlantic salmon die from their ordeal, as the bodies of these fish don't deteriorate post-spawning.  For the Pacific salmon, their method of reproduction is sometimes referred to as "semelparity," a situation in which the organism is physiologically incapable of spawning more than once prior to kicking the chum bucket.  The opposite of semelparity is iteroparity, where the animal can reproduce multiple times prior to death.  Almost all extant vertebrates (and, indeed, a large portion of extant organisms) are iteroparous, including us humans.  Notable examples of this semelparous lifestyle include some types of spiders, the genus of marsupial mice Antechinus, some types of bamboo, the aptly named century plant (or agave), and of course, several types of salmon.  

So in the course of this blog post, I've thrown a whole lot of new words at you.  Let's stop to reconsider them real fast, in the order that they were introduced in the post.

• Anadromous: Refers to a type of animal that goes from the sea into rivers to breed.  Many types of salmon fit this ticket.
• Catadromous: This term refers to a type of animal (typically fish) that goes from rivers into the sea to breed.  An example would be the North American eel (Anguilla rostrata).
• Holopelagic: An organism that remains in a pelagic area for its entire life.  An example would be the Sargassum seaweed.
• Pelagic: An area of a body of water that is neither close to shore nor close to the bottom.
• Leptocephali: A name given to the larval stage of eels.
• Glass Eel: The next stage in the life cycle of an eel, following leptocephali, but preceding the elver stage.  
• Estuary: The transition zone between the ocean and a river.  The portion of a river that is saltier than the rest of the river, but not quite salty enough to be the ocean, and is influenced by the tides.  Essentially, the last portion of a river prior to its arrival in the ocean.  
• Elver: A name referring to an eel in its postlarval stage following the leptocephali and glass eel stages.  
• Facultative Catadromy: A term used to refer to an animal that can choose (facultative) whether or not they want to commit to a fully catadromous lifestyle.  A good example is the North American eel (Anguilla rostrata).  
• Keystone Species: A species of animal that is integral for the functioning of a healthy ecosystem. 
• Redd: A nest made by a fish, such as that of the female Chinook salmon pictured above.
• Semelparity: A term which refers to organisms that can only reproduce a single time prior to their death.  Examples include some spiders, several types of Australian marsupials and salmon.
• Iteroparity: A term which refers to organisms that can reproduce many times prior to their death.  Examples include humans, pigs, and the Atlantic salmon.

That's a lot of new vocab for just one post!  While I'm not sure if we will be returning to the life cycles of eels again in the future, make sure you hold on to the terms "anadromous" and "catadromous" (as that was the whole meaning of this post), as well as "keystone species."  We will hopefully be taking a broad look at several keystone species sometime in the near future!  And make sure to check back in during the next several days so you can hear from Larry Quilling, Wallace Westfeldt, and Dr. Joe Richardson!

*I'm sorry, I am really proud of that pun.  Not ONLY does it work in the context of fish in streams, but it also works in the context of electric current and chemistry.  Dang I'm good.

References:

We're Back (Again)!

All righty, team: it's been awhile.  I've been pretty busy, but I'm hoping to get back in the blogging world very shortly, as I've got all SORTS of terribly exciting things to share with you from the classes I'm taking!  In the next few weeks, we should be learning about at least one thing from each of the classes that I'm taking this semester, including lactose intolerance (General Biology), "The Gray Wolf and the Prairie Dog: A Discussion of Keystone Species" (Environmental Systems: Climate and Vegetation), and "Evidence for Continental Drift" (Intro to Geology).  (If you know me, though, you know I rarely keep my promises when it comes to upcoming posts, I have the attention span of a squirrel.)  We will also be branching out a bit, too.  Branching up, I suppose, is more accurate: right up into space!  I am enrolled in a fantastic class called "Ancient Astronomies," taught by Professor John Stocke, which is a study of how ancient peoples used the heavens for calendars, religion, and much more.  It is super interesting, and really gotten me interested in space!  So in the next few weeks, you can also stay on the lookout for "Altair and Fomalhaut: Cold's Cottonwood and Big Woman," as well as a post about Venus!  Finally, I am hoping to combine what I've learned in all of my classes to tell you all about what I've learned regarding photosynthesis/chemosynthesis, life at the hydrothermal vents in the deep ocean, and what scientists are learning from these sun-independent ecosystems to predict whether life might exist on other planets and, if so, where to find it!  Tonight, I was researching the Chumash Indians of Santa Barbara and the Channel Islands of California for an upcoming paper for Ancient Astronomies, when I came across a word I didn't recognize.  The word, "anadromous," was used to describe a type of fish that was a mainstay in the diet of coastal tribes of Native Americans in California.  Unfamiliar with the word, I decided to look it up, and share it with ya'll!

A picture of Venus (the little glowing dot below the moon that isn't a street lamp) and the moon (which if you couldn't find before then you'll be extra lost now since then you couldn't find Venus).

A picture I took of the moon and Venus.  It looks blurry because it is.

What I got was more than I bargained for: the word itself wasn't necessarily complicated, but one thing led to another, and what we've ended up with is a series of four posts that I've made pertaining to this single word.  The first post is a look what it means to be anadromous, as well as the opposite of anadromous, "catadromous."  During my investigation of these two terms, I came across the North American eel, a catadromous fish that is native to the Atlantic Ocean and is found in many rivers along the coast.  Curious to learn more about the life cycle of this eel, as well as its spawning grounds in the Sargasso Sea, I consulted Dr. Joe Richardson, a marine biologist that conducts ecology tours on Tybee Island in Georgia.  After going on one of these fantastic tours several years ago, I asked Dr. Joe about doing a guest post on the blog.  He was very kind to oblige, and HERE is a link to that post.  He was also kind enough to answer several of my questions regarding the eel, as well as the Sargasso Sea, and the second post focuses on my discussions with him.

A picture of Dr. Joe Richardson holding up a Portuguese Man of War on one of his awesome Tybee Beach Ecology Tours!  Photo Credit: mermaidcottages.com

I also wanted an example of an anadromous fish, and the classic example of one of these critters are many types of Pacific salmon.  To learn more about them, I consulted two fisherman who had come in to talk to my Outdoor Ed class last year.  They are both great people, really funny and very passionate about what they do.  I first talked with Wallace Westfeldt, the Head Guide at Front Range Anglers here in Boulder.  Wallace sent me several pictures and stories about fishing for salmon off the coast of Alaska, as well as in Idaho.  My interview with Mr. Westfeldt will be the third post, while the fourth post will be an interview with the second fisherman from my Outdoor Ed class, a man by the name of Larry Quilling, who also has had some interesting experiences fishing for Salmon in Alaska, as well as in Oregon.

Wallace Westfeldt holding a Steelhead salmon in Idaho.  By this point, these incredible fish have already swum 850 miles!  Photo Credit: Wallace Westfeldt 

Larry Quilling holding a spring Chinook salmon in the Trask River in Oregon.  Photo Credit: Larry Quilling.

I hope you all find this as interesting as I do!  Definitely glad to be back!