Isolation Methods for Chytrids

by Sharon Mozley-Standridge

Cochran Campus, Middle Georgia College

Click on the links to see images of the types of equipment, bait, and techniques being described.

Introduction

Chytridiomycetes are true Fungi that require water to disperse throughout their environment. Unlike ascomycetes, basidiomycetes, or zygomycetes, chytrids, as they are commonly called, produce flagellated, asexual reproductive cells known as zoospores. Chytrid zoospores are readily dispersed in the presence of free water but this need for water does not restrict them solely to aquatic habitats. Besides being commonly found in lakes, streams, ponds, roadside ditches and coastal marine environments, chytrids also are present in soil. As members of terrestrial and aquatic microbial communities, chytrids play an important ecological role in the degradation of recalcitrant materials like keratin, chitin, and cellulose. Chytrids live saprobically or as parasites in, or on, a number of different organisms and substrates such as pollen grains, insect exoskeletons, protists and small invertebrates, amphibian skin, other fungi, pieces of plants, fruits, and waterlogged twigs.

Methods

Collecting

When looking for chytrids, the first step is to go collecting. Plastic bags, screw top containers (empty glass jars and plastic food containers), specimen cups, etc. are all good for collecting water and soil samples. Plankton nets can be used to collect planktonic substrates from aquatic habitats. Any water body of any size (especially if algae are present) or soil will probably yield chytrids. Going to the field also provides an opportunity to collect substrates for direct examination, e.g., insect exoskeletons, algae, protists, plant material, fruits, twigs, pollen, etc. If you are looking for a specific chytrid, first learn its preferred substrate and habitat, then look in a suitable location for that material. Keep a log of your collections by writing down location, habitat description, date, and type of collection (soil or water and whether or not the soil was wet or dry). Give each collection an identification number. Habitat and place information is useful in determining what sites are good places to collect, and for reference when you wish to re-isolate a particularly interesting chytrid. Collections should not be allowed to get too warm, so you may want to bring along a cooler with ice to keep the samples, mainly water samples, from overheating. The use of rubber boots or wading boots is also a good idea as these allow you to walk along the edges of lakes, ponds, streams or in bogs without having to worry about getting wet or bitten by one of the local inhabitants. Hats, sunscreen and bug repellant are must-haves, especially when collecting in certain areas in the warmer times of the year. When filling containers, it is a good idea to not fill them to the top but to leave them 1/2 to 2/3 full. Once you've obtained some material, its time to go back to the lab and look for chytrids under the microscope!

Chytrids can be seen under a dissecting microscope but a compound microscope is necessary for seeing zoospores and other important details. Once you are back in the lab, transfer your water collections to clear glass Petri dishes, crystalizing dishes, or larger dishes called finger bowls. Watch glasses make good covers for the larger finger bowls and help prevent evaporation. Record the collection number and date on each container with a marker pen. Dirt samples and dry substrates should be kept dry and in their original containers until ready for baiting. Examine biota in water samples under the microscope for signs of chytrids. You can keep cultures going by adding Alga-Gro® (Carolina Biological Supply) (to keep the algae happy) or distilled water to prevent them from drying out. It is also a good idea to keep algal cultures under illumination or near a window. If you find a chytrid you want to study, a variety of techniques are available for isolating it into pure culture (unfortunately this is not always possible, especially with parasites!).

Baiting

Baiting is another way to find chytrids in soil and water samples. When baiting water samples, place the sample into a dish with some of the accompanying organic material and then add a few pieces of bait. The type of bait used will depend on the kind of chytrid you are seeking. The size of the bait should be big enough to be retrieved but small enough to be examined on a microscope slide (about this big). For soil samples, to avoid the culture from being overrun by bacteria add only one to two grams of soil to a dish half filled with sterilized water. The type of baits commonly used include purified shrimp exoskeleton (chitin), snake skin, defatted blond baby hair (keratin), cellophane, lens paper, boiled or autoclaved dialysis tubing, white onion skin, hemp rope, corn straw (cellulose), and pollen (pine pollen, spruce pollen, sweetgum pollen). Another way to bait for chytrids is to use bait bags. Bait bags are made from mosquito netting and can be used to determine what chytrids are active in aquatic habitats. Several pieces of bait and two or three marbles are put into the bags. The bags are then placed into the lake, pond, stream, bog, or ditch for a week or more before being re-collected. The length of time the bait bags remain depends on the time of year and a good rule of thumb is a week when water temperature is above 20°C and longer at lower temperatures. The baits are then examined microscopically for chytrids back in the lab.

Another good thing to do is to record the temperature of the water. This is important later when culturing because some cultures may grow better at the temperature of the environment from which they were isolated versus room temperature. Lastly, when examining baits from bait bags or gross cultures in the lab, allow a couple of weeks before discarding them as some chytrids take longer to appear than others. This is especially true with members of the Nowakowskiella clade, which can take up to three weeks to appear on onion skin and corn straw baits.

Isolating into Pure Culture

If you see mature sporangia of something you want, isolate it immediately before it becomes overgrown by other undesirable organisms. Two main ways of isolating involve harvesting zoospores from pieces of bait placed in depression slides and scraping sporangia from bait onto agar media.

With the depression slide method, cut out the part of the bait with the greatest number of mature sporangia and place it in the depression with a drop or two of distilled water. Watch and wait for zoospores to be released. Once zoospores are swimming around, pick them up with a clean pastuer pipette and transfer the zoospore suspension to an agar plate. Make a mark with the tip of the pipette on the agar surface where the drop of water will be placed for later reference when checking inverted plates with the compound microscope. Then pipette all of the liquid onto the agar and tip the plate so the water can spread. Allow the free water on the surface of the agar to dry before wrapping the plate junction with laboratory film (e.g., Parafilm "M" ™ American National Can).

The other method of isolation involves scraping sporangia from the bait onto agar medium. While looking through the dissecting microscope, a sharpened needle is used to move sporangia from the piece of bait onto the surface of an agar plate. The sporangia are then picked up with the needle and dragged through the agar to clean them of bacteria, yeast, etc. When cleaning sporangia by dragging through agar, it is easier to move the plate than the needle. One can also repeatedly pick up and put down the sporangium on fresh agar as a way to remove bacteria. Once sporangia are cleaned, they are placed individually onto a new agar plate. It is a good idea to circle the location of each sporangium on the bottom of the plate as this makes them easier to find when looking under the microscope.

Common media used for isolation include PMTG, mPMTG, Corn meal agar, and 1/4 strength YPSS (See Longcore refs below for recipes of PMTG and mPMTG). Other types of media are listed in Zoosporic Fungi for Teaching and Research Jaworksi and Fuller. Barr in ZFTR also suggests the use of antibiotics in the isolation media to cut down on bacterial contamination. Isolation plates should be examined daily for growth of chytrids. Because chytrids usually grow slower than the competition (other fungi, Oomycetes, bacteria, etc..), contaminants should be removed by cutting out them out aseptically to prevent any further contamination. Removing contaminants (weeding) allows the chytrid time to develop before it is moved to a clean plate. Maintaining chytrid cultures involves transferring to new nutrient agar slants, preferably in screw top test tubes, every six weeks at room temperature or every three months if cultures are kept at 4°C. But as with isolating chytrids some cultures require different ways of keeping them going, so do not be afraid to experiment to see if something else will work. You never know until you try!

Further Reading


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