Microorganisms in charge

[Guest guest]

Master Gardeners

By VAL WHITMYRE, UC Master Gardener

Saturday, May 20, 2006 1:16 AM PDT

http://www.napavalleyregister.com/articles/2006/05/20/features/home_a

nd_garden/iq_3433888.txt

Microorganisms in charge

Composting is all about microorganisms. We think we're in charge,

making the compost happen, but it's all up to the billions and

billions of microorganisms in our soil. What they do and how they do

it is dependent on their food, water and oxygen.

Water enables soil microorganisms to move about and digest as much

organic material as possible. Being living organisms, they require

oxygen to respire, just as we do, and their respiration is what

produces heat in a compost pile. The heat they generate attracts

other organisms, thus hastening decomposition of the pile. As these

organisms work, they release carbon dioxide, which the plants use to

help them grow.

If microorganisms did not do their work, there would be tons of

refuse all over the world and very little carbon dioxide, which

means that there would be little or no plant life.

The yard waste and kitchen scraps we add to a compost pile provide

food for soil microorganisms. It is the composter's responsibility

to learn how microorganisms operate, because this knowledge will

enable the composter to solve problems.

Our soil contains tiny creatures, many dormant but just waiting to

be activated by oxygen. Many of them reproduce at an alarming rate;

some eat each other. This process has gone on since the beginning of

soil.

These beneficial microorganisms include bacteria, fungi and a half-

breed that is half bacteria and half fungus. One billion of these

microorganisms could fit into one-quarter teaspoon. I find that

astounding.

The bacteria fall into three major groups. The psychro-philes like

relatively cool temperatures. They work between 55F and 70F. The

mesophiles prefer moderately warm temperatures. They do best between

70F and 100F. The thermophiles are heat lovers that perform between

100F and 160F.

If you have trouble keeping your compost pile hot, don't worry.

Microorganisms that prefer cooler temperatures will take over and go

back to work. If the pile is too hot, the bacteria go into a feeding

frenzy, consuming each other. The objective is to heat the pile

while keeping the bacteria alive.

Fungi also operate at different temperatures. The high-temperature

fungi are like the cleanup crew after a parade. They digest larger

particles that were left by the bacteria.

The half-breed, called actinomycetes, looks like a slender, silvery

ribbon in decomposing organic material. It is responsible, in part,

for the sweet, woodsy smell of composted material.

Soil is composed of sand, silt and clay, plus organic matter. These

particles cling to each other in clusters and are responsible for

capturing and retaining water so that it is available to a plant's

tiny feeder roots. Air channels between the clusters provide good

drainage.

When decomposed material such as compost is mixed into clay, pores

are opened, activating the bacteria and enabling them to work. The

decomposed material also helps bind soil particles, enabling the

soil to hold water.

Dark, crumbly soil that includes equal parts sand, silt and clay is

known as loam. Add compost to loam and you have every gardener's

dream soil.

When water-saturated soil is compacted due to footsteps, equipment

or paving, the soil microorganisms suffer and may die, delaying

decomposition.

The result of composting is humus. All organic material, including

us, will eventually decompose and become humus, which returns

nutrients to the soil and turns dead material into food for our

friends, the microorganisms. Then the process begins again. This

never-ending cycle of decomposition and regeneration is the

gardener's circle of life.

Napa County Master Gardeners (www.mastergardeners.org) are available

to answer gardening questions in person or by phone, Monday,

Wednesday and Friday, 9 a.m. to noon, at the UC ative

Extension office, 1710 Soscol Ave., Suite 4, Napa, 253-4221, or toll-

free at 877-279-3065. Or e-mail your garden questions by following

the guidelines on the Web site. Click on Napa, then on Have Garden

Questions?

[Guest guest]

So we are food for those microbes loving temperatures between 70-100.

I know aspergillus is a dangerous mold for humans due to fact that it

grows well at body temperature. That's why I say if you can't leave

aspergillus immediately, kill it and air the house out, but I know

many will disagree with that.

--- In , " tigerpaw2c " <tigerpaw2c@...>

wrote:

>

> The bacteria fall into three major groups. The psychro-philes like

> relatively cool temperatures. They work between 55F and 70F. The

> mesophiles prefer moderately warm temperatures. They do best between

> 70F and 100F. The thermophiles are heat lovers that perform between

> 100F and 160F.

>

[Guest guest]

What % humidity does mold need to thrive?

Bobbie

> >

> > The bacteria fall into three major groups. The psychro-philes like

> > relatively cool temperatures. They work between 55F and 70F. The

> > mesophiles prefer moderately warm temperatures. They do best between

> > 70F and 100F. The thermophiles are heat lovers that perform between

> > 100F and 160F.

> >

>

[Guest guest]

I've heard 50% but I'd like to hear what others say here. Their

offspring/spores survive low humidity though and spring to life when

humidity is right.

--- In , " biotoxicblues " <B.Delory@...>

wrote:

>

> What % humidity does mold need to thrive?

>

> Bobbie

[Guest guest]

--I've read that some types need more than others and some need very

little. also read that many produce their own moisture after getting

started. my second home witch had high amounts and had been there for

a long , long time caused the moisture in the home to be twice as

high as outside humidity. everything was damp to touch after moveing

in and mold spots quickly started growing on my belongings. my

mattress, blanets in the closet and everything became damp.

aspergillus and pinicillium, thrived in this home, others to but

these were heaviest. my first home was roof leak and older victorian,

it was more airy and leaks might of dried quicker but this home grew

stachybotrys very well, and the drying and windy days helped it to

become airborne and filter into the rooms from behind the walls.

there were other molds there too, but stachy was the main

one.

- In

, " biotoxicblues " <B.Delory@...> wrote:

>

> What % humidity does mold need to thrive?

>

> Bobbie

>

> > >

> > > The bacteria fall into three major groups. The psychro-philes

like

> > > relatively cool temperatures. They work between 55F and 70F.

The

> > > mesophiles prefer moderately warm temperatures. They do best

between

> > > 70F and 100F. The thermophiles are heat lovers that perform

between

> > > 100F and 160F.

> > >

> >

>