Last spring, I attended a seminar at the UF/IFAS North Florida Research and Education Center in Quincy hosted by the Gardening Friends of the Big Bend (GFBB). Brie Arthur was the guest speaker and taught us about foodscaping, gardening with grains, and other traditionally agronomic crops that I had not considered for my landscape. Excited by her presentation I made some purchases at the GFBB plant sale including a small sandwich bag filled with sesame seed. Little did I know this would turn out to be one of my favorite plants last summer!
My first attempt at growing sesame was in a flower bed that received overspray from turf irrigation and about 6 hours of direct sunlight. The plants were small and although they flowered, were nothing to get excited about. Despite this lackluster first attempt, a few weeks later I threw some seed out alongside sunflower seeds in a different bed that receives full sun, no irrigation, and has sandy soil. I watered by hand for about two weeks, if we received no rain, to get the seeds to germinate and seedlings off to a decent start. The foliage that emerged in this bed looked so different from the first batch of sesame that I thought that I had mixed up my seeds. The foliage was wider and the plant was denser compared to my first attempt. I was completely stumped on what I was growing and started sending pictures to colleagues. Nobody knew what I was growing and apps just confused the issue further. Once it bloomed it resembled sesame, but I was still puzzled, so I took lots of photos and sent them to UF Extension Botanist Marc Frank. He confirmed that all these vastly different looking plants were indeed sesame! He advised that the long history of cultivation has led to extreme variability in the species which was certainly on display in my garden. This was a good reminder that the best way to identify plants is with their flowers.
For weeks, the sesame bloomed and was bombarded by bumble bees and other pollinators. To encourage more flowering, I continued to deadhead instead of letting it go to seed. We had summer thunderstorms that knocked it over and it just sent new stems skyward and kept on blooming. The sesame thrived in the harshest part of my garden until winter set in. Since I was growing it for pollinators I kept deadheading and never attempted to harvest seed.
Sesame is very drought tolerant and is sensitive to too much water or humidity, so plant it in a spot with well-drained soil, good air flow, and away from irrigation overspray for best results.
Narrow green leaf variation of sesame plant with white-lavender bell shaped flowers. JMcConnell, UF/IFASBroad leaf variation of sesame. JMcConnell, UF/IFASSesame with broad leaves looked very different than narrow leaf variation. JMcConnell, UF/IFASBumble bees were frequent visitors to sesame flowers throughout the summer. JMcConnell, UF/IFAS
Does your yard have patches of dead grass or areas that look thin and weak? The last two summers of heavy rain and the stress of December’s freezing weather have contributed to widespread outbreaks of Take-All Root Rot, a soil-inhabiting fungus Gaeumannomyces graminis var. graminis that causes yellow grass patches ranging in diameter from a few inches to more than 15 feet. The symptoms first appear in the spring, but disease can persist all summer and survive the winter. Over time the entire area dies as the root system rots away.
The pathogen is naturally present on warm-season turfgrass roots. High rainfall and stressed turfgrass trigger the disease. Because the roots are affected, they are not able to efficiently obtain water or nutrients from the soil, nor are they able to store the products of photosynthesis, which result in the loss of color in the leaves. By the time the leaf symptoms appear, the pathogen has been active on the roots for several weeks, probably longer; potentially years. If the turfgrass is not stressed, leaf symptoms may never be observed. To confirm the presence of TARR, submit a sample to the UF Pathology Lab.
This disease is very difficult to control once the above-ground symptoms are observed. Measures that prevent or alleviate stress are the best methods for controlling the disease. Any stress (environmental or man-made) placed on the turf weakens it, making it more susceptible to disease. Remember, that every maintenance practice, fertilizer application, and chemical (especially herbicide), application has an impact on turfgrass health.
Cultural practices that impact the level of stress experienced by a lawn include: proper turfgrass species selection; mowing at the correct height; irrigation timing, frequency and volume; fertilizer nitrogen and potassium sources and application quantities; thatch accumulation; and soil compaction issues. The selection of turfgrass species should be based on existing soil pH, sunlight exposure, use of the area and planned maintenance level.
Mower blades must be sharp to avoid tearing of the leaves. Additionally, turfgrasses that are cut below their optimum height become stressed and more susceptible to diseases, especially root rots. When any disease occurs, raise the cutting height. Scalping the grass damages the growing point. Raising the cutting height increases the green plant tissue available for photosynthesis, resulting in more energy for turfgrass growth and subsequent recovery from disease.
The amount of water and the timing of its application can prevent or contribute to disease development. Most fungal pathogens that cause leaf diseases require free water (rainfall, irrigation, dew) on the leaf to initiate the infection process. Irrigating every day for a few minutes is not beneficial for the turfgrass because it does not provide enough water to the root zone, but it is beneficial for turfgrass pathogens. It is always best to irrigate when dew is already present, usually between 2 and 8 a.m., and then only apply enough water to wet the root zone of the turfgrass. If an area of the lawn has an active fungus, washing or blowing off the mower following use will reduce the spread of the disease to unaffected areas.
Excessively high nitrogen fertility contributes to turfgrass diseases. The minimum amount required for the grass species should be applied. Potassium (K) is an important component in the prevention of diseases, because it prevents plant stress. Application of equal amounts of nitrogen and potassium is recommended for turfgrass health. When turfgrass roots are damaged from disease, it is beneficial to apply nutrients in a liquid solution. However, nitrate-nitrogen increases the severity of diseases, so its use should be avoided when possible. Ammonium-containing fertilizers are the preferred nitrogen sources. Heavy liming has also been linked to increases in Take-All Root Rot. Since most turfgrasses can tolerate a range of pH, maintaining soil at 5.5 to 6.0 can suppress the development of the pathogen. When the disease is active, frequent foliar applications of small amounts of nutrients is necessary to keep the turfgrass from declining.
Additional maintenance practices that need to be addressed are thatch removal and reduction of soil compaction. Excessive thatch often causes the mower tires to sink, which can result in scalping and reducing the amount of leaf tissue capable of photosynthesizing. Thatch and compacted soil prevent proper drainage, resulting in areas remaining excessively wet, depriving root systems of oxygen.
Since recovery of Take-All damaged turfgrass is often poor, complete renovation of the lawn may be necessary. Removal of all diseased tissue is advised. As a native, soil-inhabiting pathogen, Take-All-Root-Rot cannot be eliminated. But, suppression of the organism through physical removal followed by proper cultivation of the new sod is critical to the establishment of a new lawn. Turfgrass management practices, not chemicals, offer the best control of the disease.
It is acceptable to use fungicides on a preventative basis while rooting in the sod. Azoxystrobin, fenarimol, myclobutanil, propiconazole, pyraclostrobin, thiophate methyl, and triadimefon are all fungicides that can be utilized to prevent disease development while having to excessively irrigate newly laid sod. Ideally, the turf area should be mowed and irrigated prior to a fungicide application. Unless the product needs to be watered in, do not irrigate for at least 24 hours after a chemical treatment. Do not mow for at least 24 hours, to avoid removal of the product attached to the leaf blades.
Now that we have added another major stress with the recent heavy rain, it will be very important to continue monitoring the turf and being cautious about the cultural practices being used. Take-All Root Rot is likely to flourish. Do not encourage its development.
If the damaged areas are small, it may be possible to encourage turfgrass runners to grow back into the space. Application of 50/50 blends of sphagnum moss and course white sand can be used to top-dress the damage areas. Add no more than 1-inch of the mixture per application. After the stolons have crept into the voids and received a mowing, more top-dressing can be applied. Repeat until the grass stops growing in the fall. Fungicides applied in the spring and fall will help to keep the Gaeumannomyces graminis var. graminis suppressed.
Article written by Khadejah Scott, Horticulture/Agriculture/Natural Resources Agent – UF/IFAS Extension at Wakulla County.
Gardening for pollinators is not only beneficial for the environment, but it can also be a rewarding and fulfilling hobby. However, living in an apartment can pose a challenge for those who want to create a pollinator-friendly garden. But fear not! With a little bit of creativity and effort, you can still create a welcoming space for pollinators to thrive. Check out these tips to encourage pollinators at your apartment.
Choose Your Location
The balcony is the obvious first choice for your apartment pollinator garden. Alternatively, if your building has a roof, porch, terrace, or courtyard, check to see if you can use those spaces for a few plants.
Assess Your Size And Space
The majority of apartment dwellers value their available space strongly. Finding space for just you and your possessions, much less a garden can be difficult. But even the smallest areas have the potential to turn into green havens with a little imagination. Make sure your space gets adequate sunlight and is close to a source for watering.
Select Your Plant Types
One way to start your garden is by choosing the right plants. Diversity is the key to a good pollinator garden. Because each pollinator has its techniques for sourcing nectar and pollen, flowers should be as varied as the pollinators that visit them. Native plants such as Gaillardia (Gaillardia pulchella) are an excellent option as they provide food and shelter for local pollinators. Together with native plants, you may also grow annual ornamental flowers in smaller gardens that will thrive and provide an excellent source of nectar and pollen, like zinnias (Zinnia elegans), or sunflowers (Helianthus annuus). Another best option is also to use culinary herbs. For instance, basil (Ocimum basilicum) and oregano (Origanum vulgareare) are fantastic nectar sources if you allow them to flower. One creative way to create a pollinator-friendly garden is by incorporating a variety of textures and colors. This can include adding different heights, shapes, and textures to your garden, as well as incorporating a variety of flower colors. You can also choose plants that bloom at different times of the year to ensure a consistent food source. This will attract a wide range of pollinators, including bees, butterflies, and hummingbirds.
Sunflowers can be grown from seed and provide food for birds. Photo: J_McConnell, UF/IFAS
Plant in Containers
Another important aspect to consider is the type of containers you will use for your plants. You can use anything from traditional pots to repurposed containers like old tires or wooden boxes. Just make sure that your containers have proper drainage and are large enough to accommodate your plants. Plants such as swamp milkweed (Asclepias incarnata), Blazing Star (Liatris spp.), and Black-Eyed Susan (Rudbeckia hirta) do well in containers.
Think Vertically
In a small area, vines can significantly expand the habitat that is available by climbing up a trellis or lattice against a wall or fence. Numerous native vines such as the Maypop (Passiflora incarnata) can go in large containers and are excellent sources of nectar and pollen for pollinators.
Include Bird Feeders And Bird Houses
An enjoyable way to observe birds up close and get in touch with nature is using bird feeders. Additionally, they enhance the natural food sources that birds can find near your garden. Bird houses also provide shelter to cavity-nesting species and increase the species of birds at your apartment.
A hummingbird gathering nectar from a firespike (Odontonemastrictum) flower. Photo Credit: Knolllandscapindesign.com
Finally, make sure to supply a source of water for your pollinators. This can be as simple as a shallow dish or bowl filled with water or a small fountain. Just be sure to change the water regularly to prevent mosquito breeding.
Creating a pollinator-friendly garden in an apartment is not only possible but can be an enjoyable and rewarding experience. By following the tips above, you can create a welcoming environment for local pollinators to thrive. For questions about pollinators for apartment living, contact your county UF/IFAS Extension Office.
Some citrus is recovering from our December 2022 hard freeze and pruning will be needed. Learn to identify your tree’s graft and how to prune away any rootstock material with UF IFAS Extension Escambia County.
An activity during our No Mow March campaign was for participants to document flowers and pollinators from their landscapes. This activity was available through an INaturalist group specific to No Mow March. Although we only had 13 participants, they made 85 observations representing 50 species of plants and insects.
The photo that was selected as the favorite is the Clasping Venus’s Looking Glass, Triodanis perfoliate, by Martha W. This was around the Tallahassee, FL area. Martha received an electric edger, battery, and charger.
We hope to have more participants in our photo collection next year as we observe the plants and pollinators visiting our landscapes when we don’t mow.
