Blog 5

So far, our experiment is going well! We are seeing that under the appropriate conditions, moss can really thrive. Moreover, we were surprised to see that moss is able to survive in some unfavorable conditions such as low humidity and lackluster natural light . In the temperate deciduous forests of upstate New York, it is most commonly found in damp, shady environments with high humidity. However, this plant is unique in that it can be found worldwide in many different environments whether they are damp or dry, warm or cool. Moss can be found near hot springs, in lakes and oceans, sand dunes, and on rocks and trees. It is dependent on moisture to grow and reproduce. One other major factor it depends on is accessibility to nutrients. Moss can easily grow and adapt in many places but it is vital that it will have a nutrient source, which comes from soil. Surprising to me, as I assumed all plants were the same in this aspect, was the fact that moss thrives in the winter when there is more water, lower temperatures, and less sunlight. In the summer it is hard for moss to retain enough moisture. In fact, its metabolic process completely slows down in the summer for this reason.
The most crucial ecological concept for my group to be aware of is that moss needs to stay moist to live and while it is a shade-favoring plant, it still needs light!

Here are some sources I checked out:
http://www.softschools.com/facts/plants/moss_facts/504/
http://bryophytes.science.oregonstate.edu/page3.htm

Blog 4

The experiment process continues!  As I mentioned in previous posts, my group is doing our experiment on moss and the humidity that affects its growth. Originally we were planning on ordering moss from an online catalog, however we found out that the sporulating moss they sell is actually no longer sporulating or viable for this experiment. Over this past week, we were able to go out into the Back 40 and collect different types of moss.

 We set up our moss groups in 2 containers with wet paper towels to control humidity. One container is larger and has a wet paper towel that is folded twice. This large container to small paper towel ratio creates less humidity. In contrast, the small container has a large paper towel that is folded 4 times. We soaked the paper towel in the sink prior to placing it in the container so the container would be able to trap the humidity, thus creating a higher humidity than the large container.
Our objective is to see which container will allow for the moss to thrive and grow the most spores. I'm excited to see our results!

Moss is Boss

During the nature walk on Thursday, there was much fascination about the moss that the class was shown by Mr. Calos. Sosie, Olivia, and I decided to make our experiment about moss and the factors that affect its growth. Our hypothesis is as follows: Moss grows more efficiently in conditions with higher humidity.
Our idea for the experiment is that we can set up two different moss gardens, one with high humidity and the other with as little humidity as possible. For the first set of conditions will set the moss up in a container that will trap humidity. We will do the same for the second set of conditions, however we will try to eliminate the possible humidity that could get trapped in the container. Moss is quite prevalent in a temperate deciduous forest such as upstate New York so we initially thought we could take some from the Back 40 here at Emma. It was brought to our attention that moss grows very slowly so it would be more efficient to order sporulating moss. We are using a website called carolina.com, an online catalog that sells a variety of plants. Sporulating moss will make our job much easier because we can measure the growth of the spores by height and number per container. I am excited to get this ball rolling!

Here is the type of moss we are ordering if you would like to see a visual. 
http://www.carolina.com/mosses-liverworts-and-lichen/sporulating-moss-living/156695.pr?catId=&mCat=&sCat=&ssCat=&question=live+moss

9/4 Nature Walk

Today the Bio Research class took a nature walk in the woods of Emma, known as the 'back 40'. I wasn't able to go on the walk but was able listen from afar over the phone. I learned about biomes and which biome we live in here in Troy, NY. A biome is an ecosystem which encompasses both biotic and abiotic factors. These terms were new to me. Biotic means living organisms and abiotic means non living organisms that play a role in the ecosystem and affect the biotic factors. The type of ecosystem in Troy can be described as temperate and deciduous. Temperate means there are moderate temperatures throughout the year, and although our temperatures changes during seasons they are not on one extreme end of the spectrum. Deciduous refers to forests where the leaves fall off the trees during autumn.  I thought it was very fascinating to learn about our ecosystem! Learning about the environment helps us to appreciate the natural beauty we are surrounded by and the resources we have access to. Here are some images taking by my classmate Theresa on the walk!  

Larvae

Emma eating a pupa, an advanced stage of larva

dead mole

milkweed, poisonous plant

Hypothesis- September 3rd, 2014

A hypothesis is a way to make an educated guess about the outcome of an experiment. First, an observation is made. Next, the questions posed from the observation are used to form a prediction of what might happen if one variable is changed. Hypotheses are useful because they help to set the objective that will guide the experiment. Here is an example of a simple experiment:

1. Observe and question: I have a cup of water inside at room temperature. What would happen if I put a cup of water outside on a snowy day in January?

2. HYPOTHESIS: I predict that the water will freeze because in order to snow it has to be under 32 degrees fahrenheit, therefore the water should freeze.

3. Prepare: gather my cup, water, and find a place outside to put the cup, cover the top of cup so snow does not fill cup.

3. Perform experiment

4. Analyze data: The water did freeze indicating that the temperature was indeed below 32 degrees fahrenheit.

The hypothesis was accurate because the results confirmed my prediction, which was that the water would turn into ice when put outside in freezing temperatures.