Tag Archives: nature

To Bee or Not to Bee

Can you imagine a world without honeybees? At first glance, bees can be quite frightening, especially if you are allergic to them.  However, honeybee populations are currently on a steady decline and a loss of these insects can have serious effects on our society.  As it is these small pollinators that have a hand in providing us with a third of what you see in all produce departments. Not to mention, the delicious honey that they provide us.

honey-bees

A group of honey bees. Image credit: Pixabay.com

Pollination is an incredibly important step in producing new healthy plants, some of which are used as food by humans and other species. There are two types of pollination: cross-pollination and self-pollination. Cross-pollination is the process of plant reproduction that requires an external mechanism, such as insects or wind, to transfer the pollen of one plant to another plant of the same species. On the other hand, self-pollination only needs the pollen produced by itself to reproduce.

If pollinators, such as bees, are not in abundance, it can put pressure on plants to self-pollinate, which can lower genetic diversity in plants. A decrease in genetic diversity in one species can lead to a decrease in biodiversity among species’ which can be very harmful to an ecosystem.  Some plants can self-pollinate without penalty, but for others, pollinators are crucial to maintaining genetic diversity in the species.

P1080306 Bombus Rhinanthus

A bumblebee and Rhinanthus minor. Image credit: Dr. Hargreaves

In research led by Dr. Anna Hargreaves, a herb called Rhinanthus minor was studied in the Rocky mountains of Alberta. Interestingly, this herb is able to self-pollinate successfully, but also produces flowers that attract bees to promote cross-pollination. She investigated how a reduction in bee visitations might affect the distribution of the plant. Watch the video below for more details on her research.

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As mentioned earlier, honeybee populations are quickly declining. This is a problem because honeybees are considered to be the primary pollinator of the majority of human food crops. There are several causes thought to affect honeybee populations, including several chemicals contained in pesticides used in agriculture. For this reason, it is important to take immediate action to prevent a decline in the honeybee population.

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Image credit (from podcast) : www.flickr.com

Next time you’re eating peaches, honey, or receiving flowers as a gift, think about how bees have contributed to your life, and what you can do to make sure these products and the bees are available in the future.

Stay buzzy as a bee,

Group 3
Candace Chang, Dixon Leroux, Dorothy Ordogh, & Rafael Alfaro

Is Artificial Photosynthesis a Solution to the Global Energy problem?

One of the greatest problems facing mankind is the search for renewable energy. One potential solution is inspired by photosynthesis in nature. Photosynthesis combines water, carbon dioxide(CO2) and energy from the sun to store energy as sugar, which also releases oxygen. This principle is illustrated below.

 Photosynthesis

Image source: National Energy Education Development Project (NEED)

The idea behind artificial photosynthesis is to create a man made system, or ‘artificial leaf’, that allows water and sunlight to react and form hydrogen gas(H2) to store chemical energy instead of glucose(sugar). This is significant because the hydrogen gas can be stored and utilized as a fuel source.

David Nocera of Harvard University explains the basic principle of artificial photosynthesis using an artificial leaf. Nocera also goes on to say that artificial photosynthesis still has to overcome high engineering costs to become commercially viable. Nocera’s lab is actively researching the topic to try and find more economical methods of artificial photosynthesis. Full David Nocera BBC interview below.

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One review paper visually illustrates how a large scale H2 power plant could operate using sunlight and seawater as inputs. Also shown are green energy sources to enable the power plant to be completely self-sufficient and sustainable.

Vision of a sustainable hydrogen fuel community based on APS.

From Nature article: ‘Artificial photosynthesis for solar water-splitting’ by Yasuhiro Tachibana, Lionel Vayssieres & James R. Durrant

New research suggests that in addition to creating a hydrogen fuel source, artificial photosynthesis may be able to lower atmospheric CO2. This would require a system that more closely emulates natural photosynthesis, using CO2 as well as water and sunlight to create a type of hydrocarbon(contains both hydrogen and carbon) fuel. Atmospheric CO2 is a major contributor to climate change so this would effectively be ‘killing two birds with one stone’ as far as global issues are concerned. The possibility of reducing atmospheric CO2 further sells the case of artificial photosynthesis as a leading energy source for the future.

Artificial photosynthesis surely has some desirable qualities, but is it the solution to the global energy problem? Well, possibly, but not in the immediate future. A full switch to H2 fuel would be a long process involving engineering of new infrastructure for transportation, such as motor vehicle engines.

Research on the topic is fast evolving and it will not be long until artificial photosynthesis is highly efficient with cheap materials. The real challenge now will be turning laboratory research into a large-scale commercially viable energy source. Can we do it? Only time will tell.

-Dixon Leroux

The Mystery Of How The Zebra Got Its Stripes

Why is the sky blue? Why did the cheetah get all the speed? Why do zebras have stripes? These are all questions that we wonder about the world around us. Fortunately scientists are working on answers in regards to zebras and their magnificent stripes.

In the plains of Africa, striping varies regionally. In some areas zebras have thick black and white striping covering their entire body, while in other areas zebras have thin stripes, with some parts of the body having no striping at all. In the past, many ideas have been developed to explain why zebras have stripes and to explain the variation in their stripes. Perhaps their stripes make it difficult for predators to predict their size and speed, therefore protecting them from capture. Perhaps the stripes cause an optical illusion that confuses biting flies in their habitat. Perhaps their stripes evolved for thermoregulation (the process of cooling and heating the body to the correct temperature) or social unity.

Predicted levels of stripe thickness on hind leg (left) and torso stripe definition (right). Image Courtesy of: Royal Society Publishing

Predicted levels of stripe thickness on hind leg (left) and torso stripe definition (right).
Image Courtesy of: Royal Society Publishing

Recent studies have found that the amount of striping on a zebra, and the intensity of that striping can be predicted by the temperature of the environment these zebras are living in. In hotter, drier areas, zebras have thicker stripes. Thinner stripes are seen farther from the tropics, in
slightly cooler areas. This pattern was seen on the torso, with the legs being a bit harder to predict.

This finding supports the thermoregulation hypothesis that states the thicker the stripes on the zebra, the more the heat difference between the black and white stripes. This causes eddies of air that have a cooling effect on the zebra’s body temperature.

Image Courtesy of: Wikimedia Commons

Additionally, a non-contact thermometer gun was used to compare the surface body temperature of zebras with herbivores of approximately the same size in the same area. This non-contact thermometer gun is simply pointed at the animal, and then it takes a reading of the infrared energy emitted by the animal and the animal’s temperature can be determined. It was found that zebras had an average body temperature of 29.2◦C, which was significantly lower than herbivores of the same size with a body temperature of 32.5◦C.

This relationship between temperature and striping patterns on zebras gets us one step closer to determining the functionality of zebra stripes. However, the cause of the correlation between temperature and striping patterns is still not fully understood and further investigation is needed.

Posted by: Alex Ensing