Wednesday, November 28, 2012

Lab 13 Unkown fungi identification

Week 1: Sampling
Most of the samples are collected from the horticulture garden right behind Borlaug center.
                   
Sample #1 is  from Sun Flower. 
 Sample #2 is from Peper.
 Sample #3 is from Sweet Basil.
 Sample #4 is from Petunia.
 Sample #5 is Dianthus.
 Sample #6 is Ficus.
 Sample #7 Oak tree.
 Sample #8 Pig Weed.
 Sample #9 is Aloe.
 Sample #10 is Morning Glory.
 Sample #11 is Bay Laurel.
 Sample #12 is Canna lily.
 Sample #13 is from Indian Hawthron.
 Sample #14 is from dirty water. 
 Sample #15 is from Bradford Pear tree. 
All samples are put in a moiture bag and keep at 28 degree for fungi sporulation

Week 2 Pull samples out for plating. 
 #1
 #2
 #3
 #4
  #5
  #6
  #7
  #8
  #9
  #10
#11
 
#12
 #13
 #14
 #15
Lesions with spores are cut out of each sample leaves. Leaf pieces are sterilized with 75% ethonal for 2 minutes and rinsed with autoclaved water. 

Samples are placed on PDA plate on multiple spots. 
Week 3: All plates are incubated at 28 degree incubator for a week to grow.  
Week 4 When fungi colonies grow up, subculture is conducted for a pure culture. 
Week 5-6 Incubate the subculture plates under light for two weeks to get sporulation. 
Week 7 Microscope observation for spores morphology.

Unknow I: Dendrophoma from sample #15
                        
Light color mycelium.
The distinct character: produce lemon yellow pigment after 5 days of growth.

 Dark round fruiting body produced after 2 weeks of growth.
A matured fruiting body is picked out under dissecting scope. Crush it out by light tap. Ascospores are slowly released out like oozing through the very distinct v neck opening. 
 Single ascospores look like elongated egg shape.
The fruiting body opening structure and ascospores shape match the textbook drawing of dendrophoma. In addition, this fungus has the very distinct lemon yellow pigmentation on the surface of mycelium. All these evidence helps me to identify this unknown fungus is dendrophoma.

Unknown II:  Nigrospora from sample #7
                           
Nigrospora are very characteristic.  It is very easy to identify under the microscope by its unicellular, black, ovoid flattened asexual spores. Other defining characteristics are the presence of colorless to brown reproductive hyphae or conidiophores, which produce swollen, flask-shaped spore-bearing cells with a single spore conidium at the inflated apex. In culture, Nigrospora species grow rapidly, producing at first a white, cottony mycelium that becomes progressively darker to gray or black as more and more spores are formed. 

Unknown III: Sporothrix schenckii is from a contaminated plate
The yellow colony is where the pathogen isolated from.

Very distinct colony morphology with finely wrinkled surface
The colony color is white initially and becomes cream to dark brown in time. 
                    
  • One cell conidia
  • Hyphae branch out at certain angle. 
  • Conidia cluster together form a flower  shape.
  • This pathogen can be found environmentally.
  • Dimorphism: (>37C) express itself as a round cell yeast
    (<37c ) as a filamentous fungus
    This is a human pathogen cause rose picker's disease.

    Unknown IV is from sample #3
    This fungi has very distinct conidiaphore, but I am not be able to identify what it is. 

    Unknow V: Didymaria is also from sample #3
    This fungi has very distinct two type of spores. One type is a single cell. The other one is two cells. But, unfortunately, I forgot to take the microscope pictures and  can't find the fungus later.

    Discussion:
    This is a very good learning experience. I learn more about fungi, plants and plant disease through sample collection, pathogen isolation and identification. I learn how to break down the fungi from phylum to species by looking at the colony morphology and spores characteristic, although it's painful to figure out what I really have at the beginning. I still have fun with it. This project not only help us to practice what we learn from the lab class, but also provide us chance to apply the knowledge we learn from lectures into practice.

    I also want to give my sincere appreciation to my teammates Shan and Wenwei, the great team work makes this project perfect. It's a really long  journey but it's great!




Tuesday, November 27, 2012

lab 12 Beer brew and mushroom growth continue

Part I Beer brew
Today we still work on making beers!!!
 Sanitize the beer cage. We use the same sanitizer to rinse the cage. To avoid the spill, we poor the sanitizer through a big funnel. We shake the cage for a completely rinse and dump all solution and bubbles created by it.

 
 For a better fermentation, four cabtabs pills are added into the beer bottles to help increase the carbenation.I tried one, it teast just like candy.
 Since Dr.Shaw is in sick, so shan helps us to do the mouth sucking for transfer the beer to the bottles and cage.
 Right after the sucking, Maxwell connect an extension tube. 
 Bottle the beer up!
 Also, save some for density measurement. The reading is 1.013-1.014. It's a good density which indicates a good beer! Yeah~
 Once finish the bottle transfer, students help to cap them on. Dr. Shaw suggest us not to choose a screw bottle because it won't seal tight.
 Dr.Ebbole watch the beer transfer from the glass tank to the cage. 
 Good beer!!! 
Carbon dioxide is pumped into the cage for a better carbonation.
Chris help to mix everything up. Beer will be kept under room temperature for one more week for fully fermentation.
Dr. Shaw pulled out a bottle of beer which is made by the students who took this class two year ago. The cap rise up because of too long time fermentation. 
Everybody try the beer. Mmm... it's good!

Part II Mushroom
Oyester mushroom need to get mist 3-4 times a day to keep the high huminity for a  high yield. The bag has little slot for the mushroom grow out. After a week later, small mushroom come out of the bag. 
Oyeast mushroom get really big after another week of growth. The small ones are sporulating. The yellow spores can be seen on the surface of the ascocarp. 
Shiitake mushroom also come out after a week of growth. This kind of mushroom is much easier to take care. After wet the whole medium, we just put it in a big bag to mentain the air and huminity. All the things left is just to wait for the mushrooms. 

Shiitake mushroom also can get really big and fall off naturally. This one is our baby. 

We will enjoy our beer and mushrooms next week!

Discussion:
What I learn from the beer brew practice is it really takes a long time to make beer! If any step mess up, we won't have good beer at the end. That's why we need to watch it and sample it from time to time to make sure everything goes right.Thanks for the help of Dr. Shaw and Dr. Ebbole. They help with the sampling a lot. Haha... We are lucky to avoid the contamination through the process. Toast for the hard work from all our beer brewers!