Mar 6
2008

Some urban tree species cause an inordinate amount of asthma and allergy problems, while other tree species cause little or no health problems. A large part of the problem is that the arborists and landscape professionals, who plant these trees, often dont know the difference.
The type of trees (and shrubs) used in modern city landscapes has changed dramatically in the past three decades. In the past, the majority of street trees used were perfect-flowered, insect-pollinated trees, such as the once so common American elm tree.
Today though, many of the most widely used city trees are wind-pollinated species. Most of these species are unisexually flowered (dioecious and/or monoecious) and further compounding the problem, thousands of popular cultivars sold today are touted to be seedless, low-maintenance, pod-free or litter-free.
These fruitless, seedless trees are male plants, all male, and male trees produce prodigious amounts of allergenic pollen. Female trees produce NO pollen what so ever.
In dioecious-flowered trees such as most ash, willow and poplars, it is easy to propagate male only trees because they are separate-sexed. Monoecious trees, which in Nature always have both sexes (male and female flowers) on the same tree, also usually produce abundant pollen. It is possible to have all-male trees from the monoecious species. On many species the sexes will be born on separate branches, such as on a Honey Locust tree. If you take cuttings, or budwood, only from the branches with male flowers, then, you’ll get an all-male tree. Lots of monoecious Acer spp. cultivars are male-only plants. In a somewhat different way, there are also numerous monoecious species where only the top or only the bottom will have either male or female flowers. For example, the bottom half of a mature Italian Cypress for example is all-male. Female
wood is found only at the top of the plant. Thus, scion wood taken from the bottom usually produces “seedless” plants.
The terms dioecious, and monoecious, are botanical terms, not horticultural terms. We could perhaps say that a manipulated, asexually propagated all-male cultivar, taken from a monoecious species, is now dioecious, but this is not quite correct. A proper dioecious tree is one that in Nature is separate-sexed. These modern engineered trees are never found in Nature.
Interestingly, the first reference in print I ever found to this single sexing-out with monoecious street trees, was in a USDA booklet, from 1982, called Genetic Improvement of Urban Street Trees.

How Bad Is Allergy Now?
In 1959 the official rate of allergy in the U.S. was between 2 to 5% of the public. By 1999 the official rate of allergy had increased to an incredible 38% of Americans. Asthma, which was once considered rare, is now the number one chronic childhood disease in the US.

Where are Allergies and Asthma the Worst?
The most common allergen of all is pollen and since there are so many more plants growing in the country than in the city, it would make sense then that there is more allergy and asthma in the countryside. Right? No, wrong! Allergies and asthma are far worse in the city than they are in the country.

Several things contribute to this:
1.Pavement makes a poor pollen trap. Pollen in the city often lands on pavement where wind can cause it to become airborne again. In naturally vegetated areas where there is much more vegetation, pollen often lands on and becomes stuck in grasses, shrubs and vines or in trees.
2.Cities have more air pollution, which weakens the immune system and lung function.
3.Stress, which is generally higher in cities, can contribute to both asthma and allergy development.
4.Increased carbon dioxide levels within cities causes pollen-forming plants to produce more pollen with each bloom cycle, and also often causes urban plants to bloom more often.
5.Pollen loads are actually far greater in cities because there is a sexual imbalance within the plant community. In the city there is a preponderance of male trees and shrubs, while in the rural areas there is almost always a complete balance of plant sexuality. The excess of male plants in the city results in an excess of pollen.
6.The very lack of female plant materials in the urban environment also is a prime factor in the epidemic of allergy and asthma. Female flowers carry an electrical negative (-) charge (the trees are grounded with their roots) and airborne pollen holds a positive (+) charge. The tree and the pollen are mutually attractive; thus a female plant becomes a very effective pollen trap for pollen of its own species. But with almost no female trees and shrubs in modern landscapes, most of the pollen remains airborne.

How to Improve Health and Air Quality through Tree Selection
Landscaping to reduce allergies, especially pollen allergies, is an idea that is coming into its own. In the past few years several books have been written on the subject and interest is growing rapidly.
With the addition of OPALS, (Ogren Plant-Allergy Scale) arborists now have a means to design allergy-free plantings. This scale ranks all landscape plant materials on a simple 1 to 10 allergy basis. Trees that produce zero pollen, e.g., female cultivars, usually rank the best number one. Trees that have abundant, highly allergenic pollen, especially those with very long bloom periods, are usually ranked the worst in the 9-10 range. There are many trees and shrubs, however, that fall somewhere in between. Using a list of over 100 factors, OPALS numerically ranks each species and then further ranks the individual cultivars. There are often dramatic allergy differences even between two species in the same genus.

How Are Plants Allergy-Ranked?
OPALS was developed based on the following considerations: What do plants that are well known to cause allergies have in common? and What do plants that are well known NOT to cause allergies have in common? With these two questions it was possible to build two opposing sets of medical-botanical-allergy criteria. One set is positive and one set is negative. Examples of negative criteria: tiny flowers, excerted stamens, small (less than 25 microns in diameter) sized pollen grains, extended bloom period. Examples of positive criteria: complete flowered, sticky, heavy pollen grains, presence of nectaries, brief bloom period.
There are now over a hundred criteria used to develop OPALS rankings. Individual landscapers, city arborists, the USDA and the American Lung Association have already use the scale to make better landscaping decisions.
Based on the plant-allergy scale it is now possible to state, for example, that Acer rubrum Red Sunset maple, is ranked number one and causes no allergies. By comparison, Autumn Spire, a male cultivar of red maple does cause allergies and is ranked number nine. Most Pine trees will rank at numbers 4 to 5 and will cause some allergy. Platanus species (sycamore) rank number eight, and cause quite a bit of allergy. A male Canary Island Palm, Phoenix canariensis, which is considered one of the worst at a ranking of 10, will produce an abundance of pollen that will cause severe allergic reactions to many living nearby.
Pollen dispersal rates have been measured since 1972 (Gilbert Raynor, NY meteorologist) and although many pollen grains travel far in the air, research shows that most often 99% of a tree’s pollen falls out and sticks within fifty feet of the tree. This means that the closer one is to the pollinating tree the greater the exposure. Thus, the job for arborists is to plant trees that will not expose everyone near them to allergenic pollen.

So, How Do You Tell the Boys from the Girls?
It isnt always that obvious by looking at a tree (especially a young tree) as to whether or not it is a pollen-free female or a pollen-producing male. But since so many city trees are now asexually produced cultivars, the sex is predetermined. In the book Allergy-Free Gardening, which is the result of 15 years of research on this subject, several thousand trees were individually sexed and allergy-ranked. In some cities, pollen control ordinances are already on the books, although most of these could be improved an updated. Albuquerque, New Mexico is particular interesting, since it has attempted to curb allergies by prohibiting the sale and planting of any male cultivars.
As the public grows more knowledgeable about allergy-free landscapes, municipal arborists and landscape specialists will want to be ahead of the curve. They will want to show their clients that they are well-informed on the subject. In the future, instead of planting high allergy-trees, they will need to plan and plant healthy urban landscapes.

References:
1.Lewis, Walter H., Airborne and Allergenic Pollen of North America, John Hopkins University Press, Baltimore, Maryland, 1976.
2.Jacobson, Arthur Lee, North American Landscape Trees, Ten Speed Press, Berkeley, California, 1996.
3.Koch, Christopher Von, Allergy, Die Woche, pg. 27, July 7, 2000, Hamburg, Germany.
4.Dworschak, Manfred, Der Spiegel, Feind am StraBenrad, Pp. 174, 175, Nr. 29, 2000.
5.Ogren, Thomas Leo, Turn Back the Pollen Clock, New Scientist, London, Pp. 46, 47, June 3rd, 2000.

About the Author

Thomas Ogren is the author of Allergy-Free Gardening, Ten Speed Press. Tom does consulting work on plants and allergies for the USDA, county asthma coalitions, and the Canadian and American Lung Associations. He has appeared on HGTV and The Discovery Channel. His book, Safe Sex in the Garden, was published in 2003. In 2004 Time Warner Books published his latest book: What the Experts May NOT Tell You About: Growing the Perfect Lawn. His website: www.allergyfree-gardening.com

Written By: Thomas Ogren

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Trackback  •  Posted in Asthma  


Feb 26
2008

Asthma has increased 300 percent in children in the past ten years. Research by WHO, in Germany, finds prostate cancer, breast cancer, and other cancers increasing due to mold-related problems.

Mold is the number one health problem with one in every three persons affected by mold and one in ten with a severe problem related to mold. These can range from the common cold, tonsillitis, otitis, sinusitis, bronchitis, asthma, and pneumonia, to cancer.

Check your home’s humidity levels; buy or borrow a hygrometer and watch the changes in R.H. that occur throughout a typical day in different rooms of the house and over the heating season. To inspect your home for mold growth, winter is the best time except for basements which should also be inspected in the summer. With a flashlight and some simple tools, go through the entire house, both inside and outside, searching for moisture damage and mold growth and their potential causes.

The Stachybotrus species of mold is dangerous; it will start growing in 80 percent humidity but, once established, can grow at 55 percent humidity. This mold can develop from the decay of building materials and is much harder to control. If more than ten square feet develop, it is advised that a professional clean it up. When you see a small speck of mold, that’s only part of the problem – the remainder being inside the walls.

‘Frog Page’ is a manual of the health of the environment and states that frogs are declining because of mold.

Some of the causes of mold are brush and trees within 30 feet of the building; venting the clothes drier inside the home; furniture against outside walls; old fill, causing building movement leading to cracks causing water ingress; concrete will wick up water even to several feet above ground; ventilation not directed outside, such as the kitchen range hood, which should be vented outside; plants and aquariums; drying clothing indoors; standing water, such as keeping cold water in the kitchen sink; hot tubs; using several gallons of water to wash floors.

‘Sick Building Syndrome’ is caused by moisture and mold growth. It migrates through foundations up from the soil. A dehumidifier is not the final answer as it only does the air and not the walls. What is required is a combination of ventilation, circulation, and heat.

Carpenter ants and termites will smell moisture from miles away and they only attack damaged wood.

Ventilation alone won’t help a crawl space. In the summer the vents bring in warm, moist air.

Mold forms on the coldest space. The only
way to deal with it is with heat. Wall heaters with fans are more efficient than baseboard heaters.

Pull furniture and store material away from exterior walls and off basement floors; leave closet doors ajar; leave bedroom doors open as much as possible; undercut doors; don’t block or deflect warm air registers; open drapes, blinds, and curtains; set the furnace fan to run continuously. This will use more electricity but can be offset by installing a two-speed energy-efficient motor; don’t cut off the heating supply or close off unused rooms.

Uninsulated or poorly insulated areas such as exterior corners or foundation walls, should be improved with additional insulation. Be sure to install an air-vapor barrier, usually polyethylene, on the room side of the insulation to prevent hidden condensation behind the insulation. Seal hidden opening into the attic, tighten the attic hatch, weatherstrip and caulk around windows and doors, gasket electrical outlets, caulk baseboards and seal the top of foundations. Using an air conditioner on muggy summer days also helps take out the moisture.

Humidifiers, dehumidifiers, air-conditioning units and filtration systems can be a source of mold growth if they are not regularly cleaned.

Key areas to check for moisture sources leading to condensation inside the home are roof leaks [especially at chimneys, flashings, skylights and eavestroughing]; wall leaks [especially at window and door flashing and sills]; foundation leaks [especially where the ground slopes toward the foundation]; and plumbing leaks [especially at toilet bases and under sink drains].

Check any fuel-burning equipment – furnaces, hot water heaters, boilers, fireplaces, and wood stoves – to ensure that they are venting properly. A blocked chimney could mean that combustion products, including large amounts of water vapor, are spilling into your house. Along with that moisture come dangerous combustion gasses, such as carbon monoxide, which cause deaths every year. Have heating equipment and venting systems checked by a trained service person.

If your moisture remedial work includes extensive air sealing, be sure that all fuel-burning equipment has an adequate supply of combustion air. High efficiency furnaces, for example, have their own air supplies and exhaust fans but conventional equipment may rely on house air for combustion and on ‘natural draft’ to move combustion products up the chimney flue. If starved for air or overpowered by an exhaust fan somewhere else in the house, such equipment can spill combustion gasses indoors. Examples of this include stains near the vent of a gas water heater, smoke entering the room from a wood-burning fireplace or stove, and pilot lights being blown out.

Mold growth often occurs in out-of-the-way areas like closets, corners, walls behind furniture and unused rooms. Increasing air circulation to these areas warms the cold surfaces and lowers local humidity levels.

To solve moisture problems, cover any exposed earth in a crawl space or basement with heavy polyethylene, sealed and weighted-down; slope soil away from foundations to keep basement walls and slab dry; patch any foundation leaks; don’t use humidifiers, unless humidity levels are below 30 percent R.H.; avoid drying firewood indoors; operate bathroom exhaust fans during a bath or shower; use your range hood exhaust when cooking; avoid steam-cleaning carpets in winter; clean mold from wood and gyproc with a 10 percent to 30 percent solution of hydrogen peroxide applied with a spray bottle. This is more effective than bleach and water.

If you use chlorine bleach, mix one part bleach with two parts water and a little detergent to clean nearby surfaces. Leave for 15 minutes and rinse well. Use gloves and protective glasses and good ventilation. Badly mildewed carpets, furnishings and books will probably need to be thrown out.

Molds are parasitic micro-organisms that appear as black, white or multi-colored stain or fuzz. In addition to causing asthma, they can cause other allergies and serious health problems. There are tens of thousand of varieties of molds and are difficult and expensive to identify, even for experts. Health officials recommend eliminating all molds from inside your home.

Most mold spores need condensation or damp materials to germinate and once are established, many colonies generate their own moisture and can continue to survive even under dry conditions. They also need mild temperatures and a source of food, such as house dust or drywall paper.

Resources:

1. Natural Resources Canada [NRCan] “Air-Leakage Control” Pg. 11 [20 Feb 2002]

2.WHO [World Health Organization] [20 Feb. 2002]

3. Cormier, Dr. Y., Centre de Recherche, Hopital Laval, 2725 Chemin Ste-Foy, Ste Foy, Quebec Canada, G1V-4G5 Institut de Recherche en Sante et Securite du Travail (IRSST), Quebec Canada July 21, 1999; revised; accepted for publication November 26, 1999.

4. http://www.cdc.gov/ncidod/dbmd/ [20 Feb. 2002]

5. http://ehpnet1.niehs.nih.gov/qa/105-10news/NIEHSnews.html [20 Feb.2002]

6. http://water.usgs.gov/pubs/FS/fs-043-01/
[20 Feb. 2002]

About the Author

Margot B, Writer, Information Broker, Web Developer at Margot B & Associates mailto:margotb@wonderport.com http://www.writers.Org-HQ.com

Written By: Margot B

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