Sorry for not posting anything about plant breeding lately. I’ve been rather busy this year. But i still have a few plant breeding projects (mostly from last year) that i dedicated garden space this year for. These include my Colorado bred / adapted Watermelon Landrace, which did quite well last year (even a racoon thought so and ate one that was overripe). My Wild Pueblo squash from Utah. An attempt at a sweet potato growing / breeding project. A mass tomato growout / trial. Some perennial teosinte-maize hybrids. And my various pea variety growouts which includes: Salmon-flowered pea and crosses, mummy-white and crosses, mummy-pea, Biskopens and hoped crosses, Joseph’s red-podded peas, Joseph’s yellow podded peas, Orange-pod, Virescens Mutante, Sugar Magnolia, Sugaree, Green Beauty, Purple Passion, Dwarf Grey Sugar, Spring Rose, Canoe, Mighty Midget. I also finally made one successful cross this year between Mighty Midget and Purple Passion. That should eventually give me a super dwarf with purple seeds and also improve purple passion to have stronger stems as it’s normally a very spindly plant.
This winter, i think in February i experimented with making a small cold-frame and using it to plant some of my peas super early. You can see it here where i watered it with snow and then a few weeks later the pea seedlings emerging but it still being rather cold outside. It worked great though. This particular cold frame is more suited for super dwarf or extra dwarf peas or lettuce or something. If i had a greenhouse i’d totally experiment more with growing vegetables in the winter.
A nice segregating yellow pod from the red-podded breeding line. Very nice.
A nice yellow and red mottled pea pod. The contrast is what makes this one really stand out! A line to keep an eye on for sure.
A remnant from Dan Quickert’s purple snow pea project. This is one of the few that didn’t die off a few years back, so this one must have had much better genetics than it’s siblings. A nice example of a purple snow pea, which are still quite rare. This one is called ‘Midnight Snow’.
And some of the orange-pod gene peas (orp) i’m growing from the Gatersleben gene bank. These have an interesting orange color on the inside of the pod. I hope to use these to make better yellows and better red podded peas in the future.
Gardening this year has been sparse. Mainly Peas, Watermelon, a few purple-stalked indian corn plants, 2 sunflowers, and some pepper seedlings. However progress is being made on the pea breeding front. Thanks to Joseph Lofthouse i was able to receive a small sample of his F4 cross between an unremarkable and unnamed, but yellow snow pea and Sugar Magnolia a good purple snap pea. This has expedited my own quest for a good red podded pea.
For those who are interested roughly in how the genetics works i will give my best simple explanations here. The modified google logo above is a horrible, but extremely basic diagram of how the red podded peas are bred. It requires the combination of yellow podded peas (which are recessive) and purple podded peas which are dominant (however there are three genes involved, which means that if only some are present they are only partially dominant). Purple pods have a green pod underneath, but if you can get a yellow pod as the base color, then you get red pods. The real trick after crossing such peas is to get the recombinant offspring that you desire. You need to get two recessive genes for yellow pods in addition to at least 1 of each of the purple genes. But if you only get some of the purple genes and not two copies for each then you get splotchy pods. You get partially yellow partially red pods. Sometimes this can be fixed by just growing several generations and letting them segregate themselves. This is possible because peas are naturally self pollinating. The problem is sometimes one of the purple genes will segregate out and you will forever have only a partially red pea pod which will never stabilize unless you use it to do another cross.
Here is the predicted results of the F1 generation between a purple podded parent and a yellow podded parent, with the assumption that the purple podded parent is heterozygous for all 3 purple genes. This chart was done after reading about rebsie’s F1 generation having mostly green pods.
Here is an “average” prediction of the F2 generation. This is excluding one of the purple genes, because by this point you should be selecting from only purple pods. green pods will never give you purple pods, which in turn will never give you red pods.
Even Joseph’s F4 generation is still segregating between Snap pods and Snow pods, and red and yellow pea pods. So, I have some of my first red podded peas thanks to Joseph Lofthouse in Utah. And i’ve been doing as many pea crosses as i can myself. Not only for red-podded peas, but umbellatum types, pink pea flowers, large pods, snap pods, dwarf plants, etc. Should be fun. 🙂
…and discovering how interesting pea breeding can actually be…
After noticing that Google’s logo today was in honor of Gregor Mendel’s 189th Birthday, I decided to make a post about pea breeding. On first thought pea breeding doesn’t sound all that interesting. Even to people who are interested in plant breeding in general. I myself thought that Mendel had already worked with all the interesting traits found in peas out there, but i have found that i was wrong. I’m starting to find that the traits Mendel worked with are actually very neat in person, and the ones he didn’t know about are even more interesting.
The Google logo itself is actually a visual representation of Mendel’s experiment of crossing yellow podded peas (recessive) with that of green podded peas (dominant), but it also shows his other experiment of crossing yellow seeds with green seeds. Unfortunately it looks like Google’s logo is not following the law of independent assortment and is showing linkage between yellow pods and yellow seeds, which is incorrect. Yellow seeds are actually dominant, so Google fails in that regard. But, even so it illustrates the ratio of 3:1. In other words, in the F2 generation 3/4 of the offspring will be green-podded and 1/4 yellow podded.
The picture above shows a variety called “Golden Sweet” which remarkably has both the rare yellow-podded gene, but also the gene for constricted pods. After growing this variety for the first time here in my own garden, i can see why Mendel was so fascinated with pea traits at the time. I personally think his experiments were directly inspired by this unique variety of pea, which is suspected to have become close to extinction in Europe and the rest of the world, until it was accidentally rediscovered recently in a collection of seeds from India. It certainly is a pea with some interesting genetics.
I’ve only just started to experiment with crossing peas this year. While it sounds like it would be hard, it’s actually fairly easy. But, it really does help to have a tiny pair of scissors instead of an exacto knife or scalpel. The only hard part is that pea flowers are self fertile and self pollinating by nature, and you must catch the flowers very early to be able to cut off the immature pollen so you can use pollen from another plant. I really don’t know how Mendel did that in his day in age, but i applaud the man. Here are two links to pea breeding on Rebsie Fairholm’s blog.
Here is a neat illustrated table of the various pea traits that I’m currently researching. It shows a more accurate color of the purple pea flowers which is known as Bicolour Purple. It also shows Salmon-Flowered, Terminal flowers (fasciated umbellatum-type peas), red-seeded peas, purple-seeded peas, purple podded peas, red-podded peas, Tendril-less peas, and Hyper-Tendril peas. In reality i am studying more than seven traits, but i put the table together as sort of an ode to Mendel.
Some of the most interesting pea traits are the ones that i don’t think Mendel even knew existed. Purple-podded seems to be one of the ones Mendel never seems to have written about. But it is widely reported that the purple-podded varieties of peas originated from the Capuchin monks in the Netherlands.
Alan Kapuler of Oregon discovered a while back that if you outcross a pea called “Parsley Pea” which has an insane amount of leaflets on it’s tendrils, that you can get a pea that has hyper-tendrils and has twice the amount of tendrils and doesn’t require a trellis to support themselves.
Rebsie Fairholm from the U.K. discovered just a few years ago (2008) that when you cross a purple-podded pea with a yellow-podded pea you get a red-podded pea! How awesome is that!
I’m currently trying collect lots of pea varieties with rare and interesting traits, but one that is uniquely rare though is one called Biskopens. It is the only pea that i know of that has red seeds! Yeah, it’s a red-seeded pea!
This is a very rare variety i was lucky (and surprised) to get in a recent trade. I really look forward to growing out this variety next spring. Supposedly it also has purple pods. I have no idea what it’s origin is. I’m curious if it’s the same gene as the red Biskopens pea, but perhaps with a green seed underneath so maybe this one comes out purple? I’m just speculating at this point.
If you are still interested in all of this, then please feel free to visit my pea_breeding webpage to find out more detailed information about pea genetics and about Mendel’s work with peas (as well as and Rebsie’s red-podded pea). Or my recently updated webpage about the seven-ish unusual pea traits that i’m currently studying at http://biolumo.com/garden/peas.html.