- Author: Kim Schwind
What is a moon garden? It is a garden that incorporates reflective surfaces, light-colored flowers, fragrant plants, and peaceful sounds, all meant to be enjoyed by the light of the moon. It is the perfect garden spot for busy professionals who don't have time during the day to enjoy their gardens.
A moon garden can include trees, shrubs, grasses, perennials and annuals. It is usually created as a summer garden, but by adding deciduous shrubs and trees with interesting architectural form, a moon garden can be enjoyed year round.
Plants that have light green or gray foliage will also reflect can add another layer of interest as the moonlight reflects off the leaves. Possibilities include lamb's ears, silver mound Artemisia, hosta, blue fescue and lavender.
Once you have created your romantic, whimsical garden, don't forget to take some time to enjoy it. Once outside, allow at least ten minutes for your eyes to adjust to the dark. As you gaze on the garden and begin to notice reflections from the moonlight, you will see that the flowers and leaves appear to be floating. Take in the sounds of your water feature or wind chimes. Breathe in the fragrance of the night-blooming flowers. Relax and enjoy.
For more inspiration: The UC Davis Arboretum has a moon garden, the Carolee Shields White Flower Garden and Gazebo. You can learn about it here.
If you have a gardening question or problem, call the Master Gardener Hotline at (530) 538-7201 or email mgbutte@ucanr.edu. The UC Master Gardeners of Butte County are part of the University of California Cooperative Extension (UCCE) system, serving our community in a variety of ways, including 4H, farm advisors, and nutrition and physical activity programs. Our mission is to enhance local quality of life by bringing practical, scientifically-based knowledge directly to our community. To learn more about UCCE Butte County Master Gardeners and their upcoming events, and for help with gardening in our area, visit https://ucanr.edu/sites/bcmg/.
- Author: Kim Schwind
Every gardener knows that weeds are just plants in the wrong place. Webster's dictionary defines a weed as “a plant that is not valued where it is growing and is usually of vigorous growth; especially: one that tends to overgrow or choke out more desirable plants.”
In nature, weeds play an important role. They can resist conditions like drought, acidic soil, lack of humus, and mineral deficiencies. Weeds protect our topsoil from eroding away in heavy rains and strong wind. They provide a cover and shade for soil microbes and insects.
Many years ago various weeds were used for food and pharmaceutical products. Currently, foraging for wild foods and mushrooms has made a comeback. Weeds in the legume family fix nitrogen in the soil and are often used as a cover crop to help enrich the soil over winter. Weeds have also been used to help indicate the presence of ground water. Curly dock is a weed that's typically found in wet saturated soils.
The primary value of weeds, wrote the eminent U.S. botanist Frederick Clements in 1920, is to “reveal information about the health and pH of our soils.” For example, certain species are confined to acidic soils and others to alkaline.
The use of weeds as soil indicators is not a new idea. Many early North American immigrants to the eastern United States chose land for their farms according to the weeds, plants, and trees that it supported. Conifers were characteristic of sandy, acidic soils that had little agricultural value. Birch, beech, maple, and hemlock indicated fertile soil. They learned that the tall-grass prairies were suitable for cereals, hay, and orchards. The bunch grass regions were better suited to wheat and grass.
If we look at our own gardens we can use our weeds to tell us what we can do to improve our soil. For instance, if our lawn is being taken over by clover we can note that clover thrives with low levels of nitrogen in the soil. We can remedy the problem by applying a nitrogen fertilizer (a 16-16-16 fertilizer is a good balance for turfgrass).
Ehrenfried E. Pfeiffer, a European scientist and student of Rudolf Steiner, wrote an entire book on this subject in the 1950's: “Weeds and What They Tell Us” (still in print). According to Pfeiffer, sorrel, plantain, horsetail, and knotweed are found in acidic soils. Dry soils with very little humus might support mustard, thistle, broom, and St. John's wort.
Sandy soils will have goldenrod, aster and toad flax. Alkaline soils support chicory, spotted spurge, sagebrush and woody aster. In heavy clay or compacted soil you might see morning glory, plantain, Bermuda grass, chickweed, and dandelion. Dandelions also indicate low calcium in the soil.
When you learn the type of soil some of these common weeds prefer you may be able to make corrections in the soil based on the information some weeds are giving you. If you really want to know, a soil analysis or at least a pH test by a local agricultural laboratory will provide factual information to accurately guide the use of soil amendments. Sometimes, improving drainage by adding well-balanced compost, organic manure, or employing cultural practices may be all that is required to improve your soil's tilth and nutrition.
Identifying the weeds in your garden can be fun! In some cases knowing what their presence indicates may help you manage your soil. Controlling weeds by hand weeding or with herbicide before they seed will reduce future populations if done consistently from year to year. One year's uncontrolled weeds can produce seven years seeds! You may even develop a new appreciation for weeds.
For more information about weeds or help identifying them see:
UC Statewide Integrated Pest Management (IPM): Weeds
UC IMP Weed Photo Gallery
UC Weed Research & Information Center
Ehrenfried E. Pfeiffer, Weeds and What They Tell Us.
If you have a gardening question or problem, call the Master Gardener Hotline at (530) 538-7201 or email mgbutte@ucanr.edu.
The UC Master Gardeners of Butte County are part of the University of California Cooperative Extension (UCCE) system, serving our community in a variety of ways, including 4H, farm advisors, and nutrition and physical activity programs. Our mission is to enhance local quality of life by bringing practical, scientifically-based knowledge directly to our community. To learn more about UCCE Butte County Master Gardeners and their upcoming events, and for help with gardening in our area, visit https://ucanr.edu/sites/bcmg/.
- Author: Mike Flanner
Johnsongrass (Sorghum halepense) is a common sight throughout our hot dry Butte County summers.
This non-native weed arrived in Texas in the 1830s and by the late 19th century was recognized as a problem in the North Valley and throughout California's agricultural fields.
The Butte County UC Master Gardeners are part of the University of California Cooperative Extension (UCCE) system, serving our community in a variety of ways, including 4H, farm advisors, and nutrition and physical activity programs. Our mission is to enhance local quality of life by bringing practical, scientifically-based knowledge directly to our community. For more information on UCCE Butte County Master Gardeners and their upcoming events, and for help with gardening in our area, visit https://ucanr.edu/sites/bcmg/. If you have a gardening question or problem, call our Hotline at (530) 538-7201 or email mgbutte@ucanr.edu.
- Author: Jeanette Alosi
Puncturevine (Tribulus terrestris) is an attractive green plant with small yellow flowers commonly seen growing prostrate along the side of the road.
Unfortunately, there are is no easy way to control this noxious weed. For most homeowners, the mechanical control methods of hand removal or cutting the plant off at the taproot are most effective. Any seeds left on the ground must be removed by raking or sweeping. Use heavy gloves to protect hands from the spiky seedpods. Of course, as with any weed, it's best to remove it before it flowers and sets seeds. This is especially important for puncturevine, as seeds are viable for years, and can be spread by shoes or the wheels of lawn mowers or carts.
Biological control using several species of weevils have been tried but are not always effective. Chemical control of puncturevine in the home garden is often unnecessary. However, in heavily infested areas, or when hand removal is difficult, herbicide may be an option.
For more information on puncturevine see the IPM Pestnote No. 74128 and the IPM Weed Gallery.
- Author: Laura Lukes
Why are wine bottles tall and narrow? That distinctive shape contributes to the happy marriage between cork and a bottle made tall enough to lie on its side so the wine can “breathe” through the cork as it matures. Lying on its side while stored in cool, dry cellars ensures that the liquid within the bottle will marinate the cork end just enough to keep it from drying out and crumbling.
What do wine, wax, and wrinkles have to do with local trees? In 1904, a cork oak grove was planted in Lower Bidwell Park near the Nature Center on East 8th Street. The grove was located within a 29-acre tract of land that John Bidwell donated in 1888 to the newly created State Board of Forestry for use as a woody plant nursery and demonstration plantation.
The species can reach about 66 feet in height, but is usually smaller than that in its native habitat. There are two notable exceptions: In Portugal, the Sobreiro Monumental (Monumental Cork Oak), is 234 years old and 52 feet tall, with a trunk so large in circumference that it takes up to five people with outstretched arms to encircle it. It is listed as a National Monument, and cited in the Guinness Book of Records as the largest and oldest cork oak in the world. Closer to home, a Quercus suber in Napa is registered as a California Big Tree. It is 89 feet tall, with a trunk circumference of 20 feet, and a crown spread of 81 feet.
What makes the cork bark commercially viable is its unique cell structure and its ability to regenerate. A cubic centimeter of cork bark is teeming with air cells (up to 40 million!) and those cells are waterproofed by the waxy suberin. Cork oak bark is durable, light, and bouncy, and once cut, has a suction-cup effect that helps it adhere to the neck of a bottle. There is a long list of uses for cork that's left over after the stoppers have been cut out: flooring, cricket ball cores, insulation panels, sound-proofing materials, fishing rod handles, even devices for the space industry. In Portuguese towns and cities, it is common to see shops selling backpacks, handbags, and even shoes made out of cork.
In the harvesting process, the bark is peeled from the tree by hand, using only an axe to strip the bark from around the tree. Absolutely no machinery is employed. It can take up to five people to harvest the bark of each tree. Because expertise and finesse is required to peel off the bark without damaging the trunk's cambium layer, harvesters train for about 8 years.
Our cork oaks in Lower Bidwell Park were also harvested periodically; scars from a stripping performed in 1940 and again more recently are visible even now. Click here for a photo taken in 1941 of the local cork oak trees.
In addition to providing cork bark, cork oak groves in Portugal and Spain support another form of agriculture: their acorns provide sustenance to sheep, cattle, and especially hogs. A superior type of ham with a distinctive sought-after flavor is obtained from the Iberian pigs that feed on the fallen acorns.
The Butte County UC Master Gardeners are part of the University of California Cooperative Extension (UCCE) system, serving our community in a variety of ways, including 4H, farm advisors, and nutrition and physical activity programs. Our mission is to enhance local quality of life by bringing practical, scientifically-based knowledge directly to our community. For more information on UCCE Butte County Master Gardeners and their upcoming events, and for help with gardening in our area, visit https://ucanr.edu/sites/bcmg/. If you have a gardening question or problem, call our Hotline at (530) 538-7201 or email mgbutte@ucanr.edu.
Photo Credits:
Cork oak acorns - Bellotas de alcornoque (Quercus suber), Ceuta, España. Xemenendura - Own work, CC BY-SA 3.0, https://commons.wikimedia.org/w/index.php?curid=29528312
Cork oak stripping - Nederlands: Kurkschillen in Santa Margarida da Serra. By Nocampo - Own work, CC BY-SA 3.0, https://commons.wikimedia.org/w/index.php?curid=23045407
Trunk of a Cork oak - Stamm einer Korkeiche (Quercus suber). By Claus Ableiter - Own work, CC BY-SA 3.0, https://commons.wikimedia.org/w/index.php?curid=2170249
Cork Oaks Southern Portugal. By KirjavaKinkytail - Own work, CC BY-SA 4.0, https://commons.wikimedia.org/w/index.php?curid=79311214