Flowers I present by love
for my baby, whom I adore
Run to me, my love, kiss me
and feel my heart beat for you
Lean your head on my shoulder
I am your support for life
Guide your heart to my harbor
I shall protect you from storms
Open your places hiding deep
and I will handle with care
Your dreams have haven in me
Our dreams we share as you sleep
These flowers represent all
of my expressions of love
For You
Copyright ©1999, 2001 & 2003 Matthew Lorono All rights reserved
My personal glimpse into the first half of the 21st Century for some yet to be known future
Sunday, October 11, 2009
Saturday, October 10, 2009
Possible types of Alien Lifeforms (Part 5: Blue Plants?)
Plants on Earth are green because they contain chlorophyll. The chlorophyll is green because it absorbs mainly blue and red light in order to produce food for the plant via photosynthesis, while reflecting the green light frequency.
Scientists at NASA point out that if the stars for other planets were in a different state than our sun and if the light frequency that reached the planets' surface was different, then the plants would have also evolved a different type of photosynthetic pigment (other than chlorophyll). This pigment would be dedicated towards the different light frequencies received by the planet. This would cause plants to appear a different color from green, such as red and yellow.
According to recent studies, no photosynthetic plants would be blue-colored. This is because blue light provides some of the highest photosynthetic yields in the light spectrum. It is important for blue light to be absorbed rather than reflected. This is based on the physical quality of different frequencies of light produced by known types of stars.
One terrestrial example of energy conversion based on something other than ordinary light involves radiotrophic fungi that convert high energy gamma rays into useful energy using the melanin. (In most organisms melanin is used to protect the organism against ultraviolet and solar radiation.) Even still, ordinarily fungi derive their energy from decomposing other biomass, rather than by converting radiation into energy for itself.
It could even be possible for photosynthesis to occur using infrared light. In such an environment, plants may actually appear black.
It is fascinating to image the variations of life that are possible, even if life is based on the same fundamentals as our own.
Reference: Wikipedia article; Wikinews article; NASA - NASA Predicts Non-Green Plants on Other Planets; Dadachova, E; Bryan RA, Huang X, Moadel T, Schweitzer AD, et al. (2007). "Ionizing Radiation Changes the Electronic Properties of Melanin and Enhances the Growth of Melanized Fungi". PLoS ONE 2 (5): e457. doi:10.1371/journal.pone.0000457; Candace Lombardi "NASA: Plants on other planets not green". CNET, April 11, 2007; Julie Steenhuysen "New hue: Plants on other planets may be yellow, red". Reuters, April 11, 2007; Ker Than "Colorful Worlds: Plants on Other Planets Might Not Be Green". Space.com, April 11, 2007; “The Color of Plants on Other Worlds” by Nancy K. Kiang, Scientific American April 2008
Response
Related articles
- Video: What Would Trees Look Like On Other Planets?
- Predictions of Evolution of Alien Life
- Communicaion with Alien Civilizations
- Odds of Humaniods Evolving again
- Part 5: Blue Plants
- Part 4: Silicon Life
- Part 3: Arsenic Life
- Part 2: Exotic Amino Acids
- Part 1: Mirror Life
Sunday, October 04, 2009
Saturday, October 03, 2009
Possible types of Alien Lifeforms (Part 4: Silicon Life)
The idea is based on the fact that silicon has valence number of four. This means that silicon atoms can be arranged in rings and in long chains that may be useful to create structures upon which biological molecules could be built. However, there are many drawbacks that must be overcome for life to efficiently use silicon as its basis.
Silicon based lifeforms would not have organic molecules used within Terran life. DNA would not be the basis for such life. However, the silicon based molecules may not be stable without an added level of complexity because silicon has a larger atomic radius and mass than carbon. It also has more difficulty forming stable molecules, particularly where water is present.
Even still, it is a possibility. For some reason, many Sci-Fi depictions show silicon based life as being rocklike in appearance. I'm not sure where this idea comes from. It's a bit like assuming carbon based lifeforms look like a lump of coal. I have a feeling that if we do discover silicon based lifeforms, they may resemble us more than many expect.
Reference: Wikipedia article and “Are Aliens Among Us?” by Paul Davies, Scientific American December 2007
Related articles
- Video: What Would Trees Look Like On Other Planets?
- Predictions of Evolution of Alien Life
- Communicaion with Alien Civilizations
- Odds of Humaniods Evolving again
- Part 5: Blue Plants
- Part 4: Silicon Life
- Part 3: Arsenic Life
- Part 2: Exotic Amino Acids
- Part 1: Mirror Life
Thursday, October 01, 2009
Autumn-Gem film
I took Allie to something she's not done before, a screening of an independent film, at SCU. The film is called Autumn Gem and is done in the same style as many Biography or History Channel shows. The topic of the film was a late 19th Century Chinese heroine by the name of Qiu Jin. You can see me and Allie in the upper left corner of the room in the panoramic photo. From the looks of my face, I was apparently in the middle of chewing my gum (which is something I don't really do all that often, so this may actually be the first photo of me doing that).
From the movie's website:
Qiu Jin was a seminal leader in both the revolutionary movement and the struggle
for women’s emancipation.
Allie has never heard of Qiu Jin before that evening, as is the case for most Americans (even Chinese Americans who were born in Asia). For me, the film was an interesting exploration into Qiu Jin's role in the Chinese revolution at the turn of the 20th Century. Here's the promotional image from the previous showing.
The makers and supporters of the film hope to sell it to the History Channel or preferably to PBS. Though the film's scope is admirable, in my opinion it needs a bit more editing, production work and clean up before its ready for those venues. It was interesting to watch, but ran a bit long for the quantity of information presented. Even still, if someone is interested in the topic, or even just interested in supporting independent film makers, please check out the upcoming screening dates. They will be all over the country in a 24 day/16 city tour.
Wednesday, September 30, 2009
Tuesday Two: Robots and Bacteria
Tuesday Two
In robot news, Josh Lowensohn explores the Rovio, a $250 robot that acts like an internet controlled telepresence guard dog. Let's hope they never hook this thing up to Skynet. Terminator's primitive cousin has been born!On the biotech front, the cleverly named Institute of Food Research made an announcement about genetically engineered bacteria that does what it is told to do just by eating a rare sugar called xylan. Sounds just tasty. I'll have two!
Epoch-Fail!
Tesla Motors has been trying to give themselves a lot of press. Their desperation lead them to submit a couple of cars to the British show Top Gear. Bad move! Well, let's be honest, an electric "sports" car that only has peak performance for a 100 mile radius before needing a 2 to ..umm 16 hour recharge? Well, Top Gear's review may not have been 100% fair, but they make some very important points. Here's the video.
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