Week 4

Monday: The week began with finishing our trawl reports and turning them in by 9:00. After that we had our final lectures and discussion for the fishes section. At 13:30 study time began and between working on lab notebooks and studying for the section final exam everyone was busily scurrying between the library and the lab.

Tuesday: In the morning there was some time for us to study before sitting down for the exam at 13:00. The general feeling in the room at 12:50 was that we were pretty well prepared yet chronically sleep-deprived. The test went well and afterward students headed to the lab for finishing touches on their lab notebooks due at 18:00

Wednesday: It was time to begin the section on marine macroalgae—after taking the morning off to catch some extra Zs, of course.  We met Allie Barner, the instructor for the section, who enthusiastically introduced us to the different phyla of marine macroalgae and presented their unique evolutionary history and plastid origins. The three phyla of algae evolved from three distinct endosymbiosis events.  The first (primary) endosymbiosis event produced the common ancestor to all eukaryotes.  The second of these events (a second primary endosymbiosis) caused this common ancestor to diverge producing the clade which contains chlorophytes (green algae), rhodophytes (red algae), and land plants. Finally, there was a secondary endosymbiosis event in which a eukaryotic cell engulfed a red algae cell forming the ochrophytes (brown algae).

After that we split into different teams, each tasked with a different set of algae, and prepared for going on a field trip the next morning.

Thursday: Most everyone seemed quite tired as we met up in the lab at 6:00 am to leave on our field trip.  We went to Boiler Bay where each team was tasked with finding a key species of algae and recording is distribution, as well as collecting samples. Upon returning to HMSC, we had a break for elevensies followed by an ID lab and some lectures.  In the lab we were introduced to both micro and macroscopic characteristics used to identify algae using a dichotomous key.  One of these lectures focused on the different life histories found in algae.  

 Identifying the red algae growing on a wall in Boiler Bay's protected intertidal zone.

There are three distinct life history strategies that are observed in algae.  Haplontic life cycles consist of a macroscopic haploid gametophyte, whereas diplontic life cycles consist of a macroscopic diploid sporophyte.  The gametophyte produces haploid gametes, and the sporophyte produces haploid spores.  Haplodiplontic life cycles alternate generations between a haploid gametophytes and diploid sporophytes.  Haploid stages are characterized by having a single copy of each chromosome, and diploid stages are characterized by having two copies of each chromosome.

After our lab and lectures, we learned to press algae for artistic purposes and to preserve specimens.

Friday: Once again we had to get up early in lab by 6:15.  From there we went to Tokatee Klootchman where we collected and took notes on at least two more species of algae in our group.  On this field trip we were shown examples of many of the important algae found in the intertidal.  The rest of the day consisted of one lecture followed by team meetings to design a field study.  These field studies will be conducted on Monday May 1st.

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The three phyla of algae evolved from three distinct endosymbiosis events.  The first (primary) endosymbiosis event produced the common ancestor to all eukaryotes.  The second of these events (a second primary endosymbiosis) caused this common ancestor to diverge producing the clade which contains chlorophytes (green algae), rhodophytes (red algae), and land plants. Finally, there was a secondary endosymbiosis event in which a eukaryotic cell engulfed a red algae cell forming the ochrophytes (brown algae).

The finely branched rhodophyte Ptilota, found by a student at Boiler Bay.

Feather boa kelp (Egregia menziesii), an ochrophyte, found at Boiler Bay.

There are three distinct life history strategies that are observed in algae.  Haplontic life cycles consist of a macroscopic haploid gametophyte, whereas diplontic life cycles consist of a macroscopic diploid sporophyte.  The gametophyte produces haploid gametes, and the sporophyte produces haploid spores.  Haplodiplontic life cycles alternate generations between a haploid gametophytes and diploid sporophytes.  Haploid stages are characterized by having a single copy of each chromosome, and diploid stages are characterized by having two copies of each chromosome.

Spring 2015 - First Week at Hatfield

Week 1: Welcome and Marine Invertebrates 

Saturday April 4, 2015

By Kaitlin Lebon and Issie Corvi 

Last weekend, after much anticipation, the new set of BI 450 students settled into their new homes.  Our first day consisted of a Hatfield crash course, including tours, orientations, and our first official lecture.  With the basics under our belts, we waited eagerly for our field and lab work to begin. 

Boiler Bay

Vanessa, Ari, and David identifying invertebrates at Boiler Bay

                  Despite the tides not being completely in our favor, we were able to venture out into the intertidal zones of Boiler Bay to explore its populations of invertebrates.  The class eagerly delved into the task of collecting specimens to bring back to our lab for further investigation and identification.  A class favorite was a large red chiton, Cryptochiton stelleri, fondly known as the wandering meatloaf because of its size and mottled color. Other species that were found included the purple sea urchin (Stronglyocentrotus purpuratus), the aggregating anemone (Anthopleura elegantissima), and the kelp crab (Pugettia producta). 

Kat looking for Sipunculids in the roots of seagrass at Boiler Bay  

Kaitlin recording her findings at Boiler Bay

Later that evening we gathered in the dining hall to discuss Oregon geology and to become more acquainted with one another.  We also we treated to pie courtesy of our instructor, Sally Hacker. 

Tokatee Klootchman

A purple Pisaster ochraceus at Tokatee Klootchman 

                  Our second field excursion took us out to Tokatee Klootchman, a site just south of Cape Perpetua.  We continued our task of collecting various intertidal invertebrates.  This site was a favorite for many in the class.  As with past BI 450 classes, we quickly discovered and fell in love with the various species of colorful nudibranchs.  We were also pleased to find that there was a significant population of healthy looking sea stars—encouraging news in wake of the sea star wasting sickness that has been prevalent along the Oregon Coast.

In lecture we learned about sponges, anemones, corals, and jellies. 

The population density at Tokatee Klootchman was incredible - countless Mytilus californianus (mussles), Balanus glandula (acorn barnacle), and Pollicipes polymerus (gooseneck barnacle) (among others) occupied the intertidal. 

Mud Flats of Yaquina Bay

                  Thursday morning we ventured our early in the morning to the local mudflats.  With some last minute words of advice from our instructor Sally Hacker, we were knee deep in mud before we knew it.  Some of us were able to navigate the sticky depths of mud better than others, but in the end we were all able to discover various shrimps and worms to bring back with us. 

Later in lecture we were told about the various types of worms, many of which we had collected that day.

The class after collecting on the Yaquina Bay mud flats. 

Cascade Head

                  By Friday, our good fortune with the weather had ran out.  Our hike up to Cascade Head to view coastal headlands and estuaries was a wet one.  The trail on the way up was very slick and muddy.  Upon arriving at the top of the trail, we quickly took a group photo, and clambered back down to the vans to escape the adverse weather.  Although it would have been better to have had more favorable weather, it was still an enjoyable hike.