Cat Update

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Animals, Cats
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Last week was fairly traumatic around here. We learned two scary things–the first was that we might be living on a Superfund clean-up site, and the second was that something was seriously wrong with our kitten, Phoebe.

As Erik just posted, the lead issue remains up in the air, and will be for quite some time. But we did find answers regarding Phoebe, and while it is bad news, it is not as bad as our worst imaginings, and it’s good just to have answers and a course of action. We’re finding our feet again and will get back to a regular blogging schedule this week.

Turns out little Phoebe, found on the street when she was only 4 weeks old and bottle raised by us, was born with a heart defect. The kitty cardiologist (the excellent Dr. Zimmerman at AVCC for you Angelenos) identifies it as a complete AV canal defect. This is a rare and serious heart deformity.  Dr. Zimmerman drew us a picture of a normal cat heart and then one of Phoebe’s heart, and all we could think was that it was a miracle this kitten lived a minute outside the womb.

As I understand it (and please forgive the very loose terminology) there are four chambers to the heart, the left and right atria and the left and right ventricles, and each pair is divided by a septum, a wall. In Phoebe’s heart, the septa are breached in both pairs, so her blood is flowing around her heart all willy-nilly. (In precise terms she has atrial septal defect and a ventricular septal defect).

We really don’t know how she’s functioning at all. It’s also a miracle that she survived her spaying. We will no longer be using the services of the vet who somehow overlooked her loud heart murmur when prepping her for anesthesia.

There is little we can do for her. There is medication which will ease her heart action some. Dr. Zimmerman would not give us a prognosis because, as she says, “kitties always surprise us.” So Phoebe might have weeks, she might last years. She’s not in pain–she is just not as active as she used to be before the symptoms of this defect became more pronounced. Basically she’s acting like an elderly cat, happy to nap a lot and watch our other kitten, Trout, play. If she does start to roughhouse with Trout she’ll run out of air and have to stop. But it seems like she’s figured that out already, and even simple Trout seems to understand that he has to leave her alone.

So yes, we’re sad, but we’re also relieved we don’t have to make any big decisions regarding surgery (there is none) or her quality of life. We’ll just enjoy her each day and be thankful we have that day together–which is, after all, how we should enjoy all the people and critters that we love.

Lead Update

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Gardening, Lead
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This week I thought I’d do a series of posts about soil and heavy metals beginning with a few more details about the possible lead contamination situation in our backyard.

Two weeks ago Darren Butler, who is teaching a vegetable gardening series at our house, led a class project where we took four samples from different locations in the backyard, mixed them together and sent them off to Wallace Laboratories, a local soil testing lab with an international reputation. The results came back showing plant available lead levels at 112 parts per million. Note that “plant available” is different than the total amount of lead in the soil. The total amount would be about ten times higher or 1,120 ppm. According to the University of Minnesota Extension Service,

Generally, it has been considered safe to use garden produce grown in soils with total lead levels less than 300 ppm. The risk of lead poisoning through the food chain increases as the soil lead level rises above this concentration. Even at soil levels above 300 ppm, most of the risk is from lead contaminated soil or dust deposits on the plants rather than from uptake of lead by the plant.

If the Wallace Labs report is correct, we’ve got a serious problem. It is possible that, in sampling and averaging multiple locations, we hit a “hot” spot where someone may have dumped paint or paint chips. Clearly, we’ll have to set up a grid of tests to see if the problem is isolated.

I re-did the first test, trying as best I could to take samples from the same locations and sent this second test off to the less expensive UMass soil testing service. The results came back with substantially lower lead levels: 220 ppm, in the “low” range according to most experts, but still higher than I would like. Except for the soil pH, all the other numbers were completely different.

The next step will be to test the testing services. I’m going to take one sample and split it into three parts, sending one to Wallace, another to UMass and the third to Timberleaf Soil Testing. I hope that two of the testing services agree on something!

In subsequent posts I’m going to discuss what we’re going to do, phytoremediation (spoiler alert: I don’t think it’s practical in residential situations), and my issues with the real estate industry.

This week the Center for Disease Control and Prevention is promoting their National Lead Poisoning Prevention Week. Especially if you have kids, get your soil and the interior of your house tested.

One Craptacular Week

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Events
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It’s been one hell of a week. First we find out, via a soil test, that our backyard may have high levels of lead and zinc. We’ll write a lot more about this once I confirm the results–I’ve sent in another sample to a different lab. And my doctor has agreed to give me a blood test. Whatever the results, I want to help get out the word about this serious issue–ironically, next week is National Lead Poisoning Prevention Week.

Then yesterday we found out that one of our kittens, Phoebe, has a some sort of serious heart defect. The blogging muses can sometimes leave us at times like this so don’t be surprised if it takes us a few days to get ourselves back together.

So please hold our dear little kitten in your thoughts and prayers as well as the worldwide need for healing our soils. After all, we all need to eat, and all food whether it be plant or animal based, has its origins in living soil systems.

SunCalc: A Sun Trajectory Calculator

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Garden Design, Gardening, Solar
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In attempting to figure out how to align a garden path with the sunrise of the summer soltice (that’s the way we roll at the the Root Simple compound), I came across a neat Google Maps hack: SunCalc, the creation of Vladimir Agafonkin.

According to the description on the site,

SunCalc is a little app that shows sun movement and sunlight phases during the given day at the given location.

You can see sun positions at sunrise (yellow), specified time (orange) and sunset (red). The thin orange curve is the current sun trajectory, and the yellow area around is the variation of sun trajectories during the year. The closer a point is to the center, the higher is the sun above the horizon. The colors on the time slider above show sunlight coverage during the day.

I can see SunCalc being useful for laying out a garden, window and solar panel placement, evaluating potential real estate, or for planning your own personal Stonehenge.

4 Vermicomposting Tips

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Composting, Gardening, Vermiculture
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Ecological landscape designer Darren Butler has been teaching a series of classes at the Root Simple compound this month (I think there may be a few open slots in his Intermediate Organic Gardening class if you’re interested. Click here for details). Darren dropped a few vermicomposting tips during the beginning class that we thought we’d share:

1) Worms don’t like empty space in their bin. They dislike voids. They appreciate it very much if you bury their entire working area under a very thick layer of light dry carbon material, like shredded newspaper or chopped straw. Yes, it’s standard practice to put a layer of cover material over the scraps–but the difference here is that Darren recommends that the cover layer should fill all the empty space in the bin, from the worm level to the lid.

To be clear, you never want the bin’s working material (worms, scraps, etc.) to get super deep. That’s just asking for problems, because the deeper that material, the more likely the bottom is going to turn nasty and anaerobic. What we’re talking about here is filling the empty air space with dry matter–sort of like an insulation layer.

2) Harvesting worm castings (separating the worms from the castings) is always a bit of a challenge. Well, not challenging as in hard, but challenging as in requiring patience. Our method has been to mound the castings into a pyramid outside on a sunny day. The worms instinctively work their way down to the base of the pyramid to avoid the light. Once they do, we take off the top and sides of the pyramid and transfer that to a bucket. That material will be mostly worm free. Then we reform the pyramid and do it all over again.

This method is fine, but Darren’s method is a little faster. It works on the same principle–the photosensitivity of worms–but instead of making pyramids he lays out softball sized mounds of castings. The worms will cluster at the bottom of the balls, allowing you to harvest off the tops and sides. This works faster than our pyramid method because the worms don’t have as far to move. You can harvest faster, and get it done all at once instead of forming and reforming the pyramid.

Of course when you’re doing either method you should remember the worms are very vulnerable when they’re out of their bin like this, vulnerable to heat and sun–you don’t want to forget about them!–and also to predators like chickens, birds and even dogs.

3) Some of you have worm bins with spigots for collecting “worm tea” aka leachate. Did you know it goes bad within 24 hours of production? If you use it, use it right away. Never use undiluted leachate on plants–it can harm them. To use it on plants, dilute it with 4 parts water, put it in a spray bottle, and spray on foliage. They’ll uptake the nutrients through their leaves. Alternatively, you can use it as a soil drench (for watering) when diluted with 16 parts water. In its straight form it can be used as an insecticide.

4) Darren’s favorite way of using worm castings is new to us and quite interesting. Castings are fertilizer, but more than that. They can help bring life to your soil. He takes golf ball sized plugs of fresh castings and buries them here and there in his garden beds (or pots). Used this way, they are little beneficial microbe arks that will help invigorate the life of your soil. A little bit goes a long way. You are, in effect, inoculating your soil with microbial life.

New to worm composting, or just vermi-curious? The classic book on the subject is Worms Eat My Garbage: How to Set Up and Maintain a Worm Composting System by Mary Appelhof.
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