Berry Go Round - March 2013

The newest edition of the plant carnival Berry Go Round is up at the blog In the Company of Plants and Rocks.  There are some good plant posts in the line up that you should definitely check out. 

The photos from Geotripper of spring wildflowers of the Sierra Nevada foothills are getting me excited about going hiking this upcoming weekend. We had a good amount of rain this week and I am looking forward to seeing some spring bryophytes in addition to the showy wildflowers. 

I would also recommend checking out the post on bees, flowers, caffeine, and memory at SciLogs. I think it is a really interesting study and those of you who love coffee and the effects of caffeine will find this study quite interesting.

Those are just a couple of highlights from the carnival. Head to In the Company of Plants and Rocks for the full carnival experience. For more about blog carnivals and my posts about the earlier editions of Berry Go Round, click here.

Dr. Jekyll & Mr. Hyde: Alternation of Generations in Plants

Dr. Friedman uses the analogy of Dr. Jekyll & Mr. Hyde to describe how plants have two different generations in their life cycle in this Science, Perspectives article.

Friedman, W. (2013). One Genome, Two Ontogenies Science, 339 (6123), 1045-1046 DOI: 10.1126/science.1234992

All plants have two distinct life stages/generations. The gametophyte has one set of chromosomes per cell and the sporophyte has two sets per cell. In many plants, including the bryophytes, ferns, and seed plants these generations have wildly different forms, as distinct as the personalities of Dr. Jekyll & Mr. Hyde. The wild part is that the main genetic difference between the two generations is just dose. One has 1 set of chromosomes and the other has 2, but their sizes, shapes, and numbers of cells are amazingly different! Check out some examples below. (These pairs are not necessarily of the same species. I just wanted to pull together some examples for a visual.)

Moss Gametophyte 

Size: Shorter than your pinky fingernail.

Moss Sporophyte 
Size: As tall as your pinky finger.

Fern Gametophyte
Size: Fits on the end of your finger.

Fern Sporophyte
Size: Tips of the leaves at or below hip height.
I borrowed this photo from Emily's fern blog. 

The evolution of this alternation of generations has long interested scientists. How is the difference between these two morphologies controlled? Well a piece of this puzzle has been recently figured out. Researchers report that they have discovered a gene, KNOX2, that suppresses gametophyte morphology. When this gene is turned off in a moss sporophyte the plant starts to grow but does not develop into a mature sporophyte, but instead grows into the shape of a leafy gametophyte plant. It is an elegant study and a great addition to our knowledge about the genetic control behind the transition between these two distinct generations! 

Sakakibara, K., Ando, S., Yip, H., Tamada, Y., Hiwatashi, Y., Murata, T., Deguchi, H., Hasebe, M., & Bowman, J. (2013). KNOX2 Genes Regulate the Haploid-to-Diploid Morphological Transition in Land Plants Science, 339 (6123), 1067-1070 DOI: 10.1126/science.1230082

March 2013 Desktop Calendar

Apologies for the delay in the March calendar. I have been busy working in the lab getting my moss cultures started! They are currently at the filamentous protonema stage and are growing nicely as you can see from the photo below.

I am not sure which species made it to the top of the pile for best photo. It is definitely a Funariaceae, but could be Entosthodon, Funaria, Physcomitrella, or Physcomitrium. It is impossible for me to tell which one at this stage of development (and I forgot to check the plate), but once they undergo reproduction their sporophyte capsules are strikingly different. They are still months away from that growth stage, so let the growing continue!

1 - Single click on the image to open it up in a new window. (If you use the image directly from the blog post you will lose a lot of resolution.)

2 - Right-click (or ctrl-click) on the image, and chose the option that says, "Set as Desktop Background" or "Use as Desktop Picture". The wording may vary.

3 - If the image does not fit your desktop neatly, you may have to adjust the image (Mac: System Preferences - Desktop and Screen Saver - Desktop; Windows: Control Panel - Display - Desktop) and choose "Fill screen" as the display mode of your background image.

Berry Go Round - February 2013

The newest edition of the plant carnival Berry Go Round has been posted at Foothills Fancies.  There are some fun plant posts in the line up that you should definitely check out. I especially like the animated gifs of bees pollinating!

For more about blog carnivals and my posts about the earlier editions of Berry Go Round, click here.

The Paradox of Cryptic Species

A cryptic species is quite the paradox. If it is cryptic, how do you identify it as a species?

Well with cryptic species there is usually a hint. A tickle at the back of your brain. Maybe it is a species with wide morphological variation or a complex distribution that makes you wonder whether there are additional species hiding within. 

Many cryptic species are uncovered when molecular data is used to examine the relationships between species. Members of a cryptic species may seemingly look the same, but not be each other's closest relatives. And thus the real adventure begins.

Medina, R; Lara, F; Goffinet, B; Garilleti, R; Mazimpaka, V. 2012. Integrative taxonomy successfully resolves the pseudo-cryptic complex of the disjunct epiphytic moss Orthotrichum consimile s.l. (Orthotrichaceae) Taxon 61:1180-1198.

The star of the show Orthotrichum consimile.  Figure 2B from Medina et al. 2012

In this paper Dr. Rafael Medina and coauthors undertook an exploration of the moss species Orthotrichum consimile and uncovered four cryptic species hiding within. They carried out this research using the process of reciprocal illumination. They first made a detailed morphological examination of many specimens from across the range of O. consimile and detected three different morphotypes (A, B, C). Basically they were able to group the specimens into three piles based on their appearance. These observations set the stage for their molecular analyses. They then extracted DNA from representatives of each morphotype and used portions of their genetic code to build a phylogenetic tree to test the relationships between the samples. They found that the morphotypes were placed into four distinct clades (monophyletic groups). The members of A and B were each in their own clade, whereas the members of C came out in two separate clades (C1, C2). They then re-examined the specimens of group C to see if there were any features that could be used to tell them apart. After closer inspection, they found that there were a few small, but detectable differences between the specimens in C1 and C2. Thus, the morphology and molecular data were reciprocally illuminating.Based on the molecular phylogeny and the morphological differences they describe four Orthotrichum species. A more restricted Orthotrichum consimile, O. columbicum, O. confusum (this is my favorite specific epithet of the bunch!), and O persimile. 

I think that this study is a great example of morphological and molecular research complementing each other to address a question of species relationships. With morphologically austere lineages (Bickford et al. 2007), such as bryophytes, the challenge of teasing apart cryptic species may seem daunting. However, this study of Orthotrichum shows that when a systematic and detailed approach is used, uncovering cryptic species is possible even in the morphologically austere mosses.

If you are interested in reading more about Dr. Medina's research or downloading a pdf of this paper check out his page on Academia.edu. 

Medina, R, Lara, F, Goffinet, B, Garilleti, R, & Mazimpaka, V (2012). Integrative taxonomy successfully resolves the pseudo-cryptic complex of the disjunct epiphytic moss Orthotrichum consimile s.l. (Orthotrichaceae) Taxon, 61 (6), 1180-1198

Sequoia National Park Field Guide

These are the final two videos in the series Looking Down by Lena Coleman, a graduate student at California State University Northridge.

These two are photographic field guides that teach you to identify moss and liverwort species from the Sequoia National Park. I didn't count, but I would estimate that 60 species are covered between the two videos. They are organized first by elevation and then by the substrate on which they grow. Mostly the identifications are based on features of the leafy or thalloid gametophyte, but photos of the sporophytes are also shown. 

I think that it is a really nice guide and it definitely makes me want to get out and explore the bryophytes of California. However, I am not sure how I am going to take these guides out to the field with me. Does this mean that I have to break down and get a smartphone?

First Half

Second Half

Do you have a favorite species? Though Funaria hygrometrica is the species that I study for my laboratory research, I would have to say that my favorites of the bunch are the Fissidens species. Those opposite leaves that clasp around the leaf above are such a neat shape.

If there are any issues viewing the videos above they can also be watched here (first half) and here (second half). 

Identification Basics for Bryophytes Video

This the second video in the series Looking Down by Lena Coleman, a graduate student at California State University Northridge.

This video teaches the basics of identifying bryophytes. She walks through the different growth forms and puts them in the larger picture of land plant evolution. The transitions and graphics are really sharp. The different parts of the moss plants are covered in more detail, with zoomed in shots and definitions for the different terms. (One typo - Calyptra is spelled without an e.) 

The guide is good for orientating novices who are just beginning to explore the diversity of mosses. 

The video can be played by clicking on the video below or on YouTube through this link.

Mosses of Sequoia National Park

This video focuses on mosses of the Sequoia National Park in California. It is the first in a series of videos made by Lena Coleman, a graduate student at California State University Northridge. The images in the video are really great and it makes me want to get out for some hiking in the woods!

The video can be played by clicking on the video below or on YouTube through this link.

The music is nice but it is not one that I recognize. Can anyone name that tune?

Want to learn the California mosses?

If your answer to this question is yes, then you are in luck. There are some great resources out there to learn to identify mosses in California. 

One is this book California Mosses by Bill and Nancy Malcolm, Jim Shevock, and Dan Norris. This book is amazing! It has over 300 pages of color photos and covers 176 moss genera that live in California. Identification via leaves is the main focus of this book. The idea is to pull a few leaves off of a stem, place them in a drop of water on the back of your hand, and then examine them with a magnifying lens (hand lens or loupe). There are black and white images of all the leaves that show the general outline and midrib as well as unique features such as hair points or a curved margin. These drawings are sorted at the back of the book by genus and unique features. 

Another resource for moss identification in California is the California Moss eFlora. This is an online moss identification resource that includes keys to the genera and species, line drawings and photos of the taxa, and maps with species distributions. 

I am new to using both of these resources, but think that they are going to be super helpful as I explore the moss flora of California. If you have any thoughts to share on these resources feel free to leave a comment. 

February 2013 Desktop Calendar

My California moss explorations have started close to home. This is an Orthotrichum growing on the tree in my back yard. Some of the other tufts had small sporophytes topped by plicate calyptrae (calyptrae with folds). Unfortunately they resisted my photography efforts, but this little patch without sporophytes came out well.  

1 - Single click on the image to open it up in a new window. (If you use the image directly from the blog post you will lose a lot of resolution.)

2 - Right-click (or ctrl-click) on the image, and chose the option that says, "Set as Desktop Background" or "Use as Desktop Picture". The wording may vary.

3 - If the image does not fit your desktop neatly, you may have to adjust the image (Mac: System Preferences - Desktop and Screen Saver - Desktop; Windows: Control Panel - Display - Desktop) and choose "Fill screen" as the display mode of your background image.

January 2013 Desktop Calendar

I have decided to continue with the desktop calendars for this year. Apologies for the posting delay. I moved to Davis, California at the beginning of the month and am on a quest to get some new moss images for the calendars.

Shown here is the first moss that I saw on my walk around Davis, Funaria hygrometrica. It is pretty fitting that the first moss I met was the species that I focused on for my dissertation. It is not the prettiest moss in the wild, but is super scrappy and can tolerate exposed conditions. It usually grows in open, disturbed habitats, near grills/fire pits in campgrounds or on open soil in flower beds. It has a curved capsule, twisted stalk and large calyptra that you can see on some of the unexpanded sporophytes in the background. These sporophytes are around 2.0-2.5cm tall. Each capsule can produce tens of thousands of spores and can be found around the world in temperate areas.

1 - Single click on the image to open it up in a new window. (If you use the image directly from the blog post you will lose a lot of resolution.)

2 - Right-click (or ctrl-click) on the image, and chose the option that says, "Set as Desktop Background" or "Use as Desktop Picture". The wording may vary.

3 - If the image does not fit your desktop neatly, you may have to adjust the image (Mac: System Preferences - Desktop and Screen Saver - Desktop; Windows: Control Panel - Display - Desktop) and choose "Fill screen" as the display mode of your background image.

December 2012 Desktop Calendar

A gaggle of geese. A pandemonium of parrots. How about a mash of mosses to fill your screen this December?

After making these desktop calendars for the last year I think that it has been a fun experiment, but I am not sure if I will continue them for 2013. So, if anyone out there has actually been downloading them and would like me to continue, please drop me a message in the comments section. Otherwise I may try my hand at a different project next year. 

1 - Single click on the image to open it up in a new window. (If you use the image directly from the blog post you will lose a lot of resolution.)

2 - Right-click (or ctrl-click) on the image, and chose the option that says, "Set as Desktop Background" or "Use as Desktop Picture". The wording may vary.

3 - If the image does not fit your desktop neatly, you may have to adjust the image (Mac: System Preferences - Desktop and Screen Saver - Desktop; Windows: Control Panel - Display - Desktop) and choose "Fill screen" as the display mode of your background image.