— Deb Caletti (via kari-shma)
I hope the days come easy and the moments pass slow,
And each road leads you where you want to go,
And if you’re faced with a choice, and you have to choose,
I hope you choose the one that means the most to you.
And if one door opens to another door closed,
I hope you keep on walkin’ till you find the window,
If it’s cold outside, show the world the warmth of your smile,
But more than anything, more than anything,
My wish, for you, is that this life becomes all that you want it to,
Your dreams stay big, and your worries stay small,
You never need to carry more than you can hold,
And while you’re out there getting where you’re getting to,
I hope you know somebody loves you, and wants the same things too,
Yeah, this, is my wish.
I hope you never look back, but you never forget,
All the ones who love you, in the place you left,
I hope you always forgive, and you never regret,
And you help somebody every chance you get,
Oh, you find God’s grace, in every mistake,
And you always give more than you take.
npr:
Ooooo.
Genetics of the Beautiful “Glass Gem” Corn
Corn gone viral? You’re looking at an ear of a corn variety called “Glass Gem”, grown by Greg Schoen of Seeds Trust. This is real corn! How does it grow this way?
First you have to understand a few things about corn. Each corn kernel is actually a sort of unique plant. A corn plant’s male parts (the “tassels”) sit at the top of the stalk, and drop pollen downward. Unfertilized ears (the female parts) catch the pollen with the sticky ends of their corn silks. Each corn silk (I hate when that gets in my teeth) grabs a pollen grain, shuttles it allllllll the way down inside the ear, eventually creating one kernel for each pollen-silk-ovum combination. It’s one of the more interesting and inefficient breeding schemes I know of.
If you’ve taken genetics, you know that the parents’ genes will combine by chance, leading to certain ratios of inheritance in the offspring. This is the basis of Mendelian genetics (great Khan Academy video here).
With corn, we’ve simply carefully bred all the interestingness out of them. Native Americans were used to multi-colored corn, because corn plants held many varieties of color genes that could combine at random. Now all we are left with are one-color clones.
This “Glass Gem” corn is the other extreme of the spectrum, a combination of corn color hybrid genes and random pollination. It’s almost too pretty to eat!
(via Discover Magazine)
npr:
Hm. Interesting. Me, my brother and four of my cousins are April babies. — Tanya B.
Guess humans have a mating season after all.
With September 24 as my birthday, I am about as common as they come.
Something is not right.
It ends up just like,
