Masterful Mallow

 

Turk's Cap is a wonderful native plant for a summer garden.

In the heat of a central Texas summer, few plants are as versatile as Drummond’s Turk’s Cap (Malvaviscus arboreus var. drummondii).  Also known simply as Turk’s Cap, Texas Mallow, Sleeping Hibiscus, or Manzanilla, this hardy native plant provides color, shade, and food for a variety of species.

For humans, Turk’s Cap is a gardener’s delight.  It thrives in woodland edges and limestone slopes in partially shaded sites, and does especially well under oaks or junipers.  It is drought-hardy, requiring little water once established, and blooms profusely from May to November.  It is a deciduous shrub, to 4 feet, spreading via roots but easily controlled.  Its leaves are alternate, simple, and roughly heart-shaped, with 3 to 5 shallow lobes.

A top down view of the five whorled petals of a Turk's Cap flower.

Turk's Cap produces small, edible, apple-like fruits.

The most common name of Turk’s Cap comes from its bright red flowers, comprised of 5 overlapping whorled petals, up to 2 inches long including the protruding stamen, and resembling a Turkish turban. They also look like small, closed versions of a hibiscus flower, hence the name Sleeping Hibiscus. These flowers develop into red, 1 inch wide, 5-lobed, apple-like fruits, giving the plant yet another common name of Manzanilla, meaning “little apple.” These fruits are edible for humans and wildlife and taste like watermelon.

An adult Turk's-cap White-Skipper butterfly.

Turk’s Cap is a host plant for several butterflies and moths, meaning the females lay their eggs on this species so their caterpillars can feed on it. Turk’s-cap White-Skipper (more common in south Texas), Io Moth, Yellow Scallop Moth, Straight-lined Mallow Moth, Cotton Tipworm Moth, and Window-winged Moth. Caterpillars eat different parts of the plant, from the tender young leaves to the flowers and fruits.  Young caterpillars hide in crevices on the host plant, while older ones live in shelters made of leaves. 

An Orange-barred Sulphur inserts its long proboscis into the flower.

Hummingbird beaks are the perfect shape to reach the
flower's nectar.

Turk’s Cap also does double duty as a nectar plant, for those animals that can find a way to access its sweet nectar.  Larger butterflies such as the Orange-barred Sulphur can reach into the flower with a long tongue or proboscis, hummingbirds such as the Black-chinned Hummingbird can uses its long and slender, straw-like beak, and some bumblebees and carpenter bees have strong mouthparts that can chew a hole or slit at the base of the flower where the nectar resides.

Bumblebees can access the nectar by cutting through the flower's base.

And some bumblebees just dive in head first!

The leaves of Turk’s Cap have been used in the past as an emollient to treat inflammation, aid digestion, soften skin, and soothe itching. The flowers can be used to make a hibiscus tea, and the fruits can be made into a delightful syrup or jelly. Now that you know all about the wonderful aspects of this masterful mallow, consider planting it in your garden this coming fall!

Roving Ringtails

Raccoon or Ringtail?

The common but elusive Ringtail or Ringtail Cat (Bassariscus astutus) is not a cat at all, but a member of the Procyonidae Family and a close relative of the Northern Raccoon.  The origins of its scientific name comes from bassar or ‘fox’, isc or ‘little’, and astute or ‘cunning’. In Texas, it is found mostly in the Trans-Pecos, the Edwards Plateau, and the Cross Timbers regions.   

An adult Ringtail on our back porch railing.

While ringtails are cat-sized mammals, their face is fox-like with a pointed snout, their body is elongated, and their tail resembles a raccoon.  The ears are large, and their big, dark eyes are each surrounded by a patch of light-colored fur.  The fur on their body is buff to brown-colored above and whitish below, with a spectacularly bushy, ringed tail.  This tail is often longer than their body, and is marked by a series of 14 to 16 alternating black and white rings (black rings incomplete on the underside) with a black tip.  

Close-up of the face of a Ringtail.

Mainly nocturnal but sometimes seen at dawn and dusk (crepuscular), ringtails are roving, solitary mammals that come together only to mate.  Their breeding season starts in late February and continues to mid-April, and females are in heat for only one 24-hour period during this time.  In early May to mid-June 2 to 4 cubs are born fuzzy, white-haired, and with a tail that is not yet colored with the distinctive black and white bands.  The cubs open their eyes at one month, and at four months begin hunting for rodents, insects, lizards, birds, and berries.  Ringtails are quite vocal, especially the young, and will make a variety of sounds including squeaks, chatters, grunts, growls, and hisses, with the typical call being a loud, plaintive bark.  In the wild, ringtails live an average of seven years. 

This Ringtail is eating sunflower seed that has fallen out of our bird feeders.

Ringtails can be found in our oak-juniper woodlands that have rocky areas associated with water, including riparian canyons and caves, limestone cliffs, and sometimes in man-made structures like mine shafts.  They can den in tree hollows, rock crevices, other animals’ abandoned burrows, and even seldom-used spaces in buildings.  They roam frequently, rarely spending more than three straight nights in one den.  Interestingly, the ankle joint of the Ringtail is very flexible and is able to rotate over 180 degrees, which makes them very agile climbers.  By pressing their feet against one wall and their back against the opposite wall, or by pressing both right feet against one wall and both left feet against the opposite wall, they are able to ‘stem’ or ascend/descend narrow passageways and wide cracks in the rock.  Their strong tail can provide balance for negotiating narrow ledges and limbs, and even allows them to reverse direction by performing a cartwheel!       

Getting access to our bird bath is an easy feat for the agile Ringtail!

Ringtails have many other common names, including Miner’s Cat, as they were often kept by miners and settlers as pets, to keep their cabin free of mice.  A hole was cut in a small box that was placed near a stove or fireplace, which acted as a dark, warm place for them to sleep during the day, and they returned the favor at night, hunting mice and keeping them and other rodents at bay.  In the native language of the Nahuatl Indians of Mexico, ringtails were called cacomistle, which is derived from the word tlahcomiztli meaning ‘half mountain lion.’  Whatever you call them, consider yourself lucky should you spot one of these beautiful, timid, and rarely seen nocturnal mammals!  

Neither Hummingbird nor Bumblebee

 

Hummingbird or bumblebee?  Neither!

Take a closer look when you see what you think is a small hummingbird hovering about and nectaring on the tubular flowers in your garden.  It just might be a Snowberry Clearwing (Hemaris diffinis), one of our more common hummingbird moths.  

Moths in the genus Hemaris are often generically called hummingbird moths, due to their ability to fly and move just like hummingbirds. They are rather plump moths, and the tip of their abdomen opens a bit like a fan. Many are brown or black with some yellow, so they are also good bumblebee mimics. Several species have clear wings, as they lack as many wing scales as other lepidopterans, and they actually lose the ones they do have shortly after they emerge due to their highly active flight tendencies.  

This adult Snowberry Clearwing just emerged from a winter spent in leaf litter,
still with all the scales on its wings.

The Snowberry Clearwing is about 1.25 to 2 inches in length, with a yellowish thorax above, a black abdomen with a yellowish band near the tip often split in two, and the namesake clear wings. Like other hummingbird moths, they generally fly during the day, but may continue into the evening if they have found a particularly good nectar source. Their proboscis or sucking mouthpart is quite long, so they prefer to sip from tube-shaped flowers. 

An adult Snowberry Clearwing showing its yellow thorax, black abdomen with a
yellow stripe, and signature clear wings.

The adults start flying in March after emerging from the leaf litter beneath their host plant where they spend the winter as a pupa protected by loose silken cocoon.  Females attract males by broadcasting a pheromone from the glands at the tip of the abdomen, and after mating, they lay individual, tiny, round green eggs on the underside of the leaves of the host plant.  In the south, they typically produce more than one generation each summer, flying well into November.

The common name for the Snowberry Clearwing comes from the fact that it was first described in 1836 in the northeast, where it uses Common Snowberry (Symphoricarpos albus) as a host plant, a native plant in the Honeysuckle family that grows in the northern half of North America. In the southern US, the preferred native host plant for this moth is Coral Honeysuckle (Lonicera sempervirens), which can be purchased at most native plant nurseries.  It is a high-climbing, twining vine to 20 feet long, with smooth, paired semi-evergreen leaves and clusters of red, tubular flowers.  In the wild, they also use our native White Bush Honeysuckle (L. albiflora), which is more shrub-like with twining branches that have smooth, paired deciduous leaves and clusters of creamy white tubular flowers.

Coral Honeysuckle

White Bush Honeysuckle

The larva or caterpillars of the Snowberry Clearwing are commonly called hornworms, due to the horn-like projection on their posterior end.  They are up to 2 inches long, blue-green above and yellow-green along the sides, with black spots and a black horn.  Uncommonly, they can also take a brown form with the same black spots and horn.  They match the foliage of their host plants so well that they are often very difficult to find. 

Snowberry Clearwing larva, green form.

Snowberry Clearing larva, brown form.

Why Insects Matter

 

Insects are terrific pollinators!

As the growing human population transforms our planet, the global insect population is declining at an unprecedented rate of 2% a year. The world has lost 5% to 10% of all insect species just in the last 150 years, so in 40 more years we could lose one third of all insect species. In a study just published in the journal Science, a working group called the ‘Status of Butterflies in the U.S.’ found that the total abundance of butterflies in the U.S. declined by 22% from 2000 to 2020.  Said another way, one in five butterflies have vanished.

Many butterfly species, including the Monarch, are declining in abundance.

What is driving this precipitous drop in insect populations and why does it matter? Insect populations are struggling due to several factors, including deforestation/habitat loss (due to development), non-native invasive species, pesticide use, artificial light pollution, and climate change.  As a result, the populations of other animals, crops, and flowers that rely on insects to survive also struggle.

Non-native, invasive plants, like Ligustrum species, often overtake native habitats.

Scientists say that it is impossible to have an insect-free life on this planet. They perform many essential services that are vital for humans’ quality of life. Pollinators such as bees, butterflies, moths, and many other types of insects are necessary to produce diversity and abundance in our food supply, including crops such as coffee, chocolate, blueberries, apples, almonds, avocados, and pumpkins, just to name a few. In fact, pollinators help ensure that about 75% of the world’s flowering plants and 35% of the world’s food crops are produced.  Other scientists estimate that one out of every three bites of human food are directly related to the work of pollinators such as bees, butterflies, moths, beetles, and other insects.

Moths and beetles are pollinators, too!

Plant and animal waste would pile up if it weren’t for the services of dung beetles and other insect recyclers. Insects like dragonflies, ladybugs, green lacewings, ground beetles, and parasitic wasps keep what we call the ‘pest’ species at bay – the mosquitos, ticks, fleas, lice, and flies that can carry disease as well as crop pests such as armyworms, cutworms, and wireworms.  

Dung Beetles hard at work.

Roseate Skimmer dragonfly eating a mosquito.

Most humans like birds, but most are also unaware of the fact that 96% of birds would not be here without insects. It takes 6,000 to 9,000 caterpillars and other insects to feed a clutch of four to six Carolina Chickadee offspring. Multiply that by the fact that most all avian nestlings and fledglings eat some form of insects, and you very quickly realize how important they are to the food web. Insects are also the main food for all of the fish, so they are the glue that binds together every terrestrial and freshwater ecosystem on the planet.

Many bird species, like the endangered Golden-cheeked Warbler,
feed insects to their young.

What can be done to reduce this downward trend?  The good news is that the things we do in our own backyards can actually make a difference when it comes to insect conservation. First and foremost, reduce or (better yet) replace your non-native lawn with native plants.  Lawns make up about 50% of Austin’s green space, so turning them back into native plantings would provide significant benefit to insects. 

Replace your lawn with native plants -
extra bonus for providing water!

Eliminate all pesticide use, including mosquito spraying. The spray contains pyrethroids which are advertised as “safe as chrysanthemum flowers”, but they are a much stronger synthetic version that is chemically designed to be more toxic with longer breakdown times.  This increased potency compromises the human body’s ability to detoxify the pesticide in addition to killing all insects, not just mosquitos.

Mosquito spraying kills all insects,
not just mosquitos.

Light pollution contributes to insect decline.

And last, but not least, turn your exterior lights off at night so as not to affect the behavior of night-flying insects (this also benefits birds during spring and fall migration). Artificial lighting can disorient moths and confuse their sense of direction, causing one third of those that swirl around a light at night to die from exhaustion or predation. Excess light also disrupts the mating flashes of fireflies and confuses insects like mayflies by bouncing light off of asphalt and causing them to lay their eggs in the street instead of in a lake or stream.

Ruby and Gold

Kinglets are often found actively searching for food in winter. 

Take a walk in the bare winter woods and you’ll undoubtedly notice kinglets – tiny, highly active songbirds feeding high in the trees.  They are in the Regulidae family, which comes from the Greek meaning ‘petty king or prince’, and refers to their regal, brightly colored crowns.  Legend has it that these little kings derived their names from a fable about the election of the king of birds, defined as the bird that could fly the longest distance.  While the eagle was able to outfly all other birds, he was beaten by a tiny bird that had secretly hidden itself in his feathers.   

This male Ruby-crowned Kinglet is showing his namesake ruby crown.

Here in Central Texas, you can find both Ruby-crowned and Golden-crowned Kinglets most reliably from November through March.  The Ruby-crowned kinglet (Regulus calendula) is about 4 inches long, an olive-gray color overall with darker wings and white wing bars.  The males have ruby crowns that are barely visible and often covered by other head feathers, until responding to aggressive encounters by other males or even curious humans.  They sometimes forage in mixed flocks of chickadees and titmice, and may also show their crowns when in close proximity to other birds.  

Female Ruby-crowned Kinglets lack the namesake ruby crown.

Golden-crowned kinglets (Regulus satrapa) are similar but slightly smaller than their ruby-crowned cousins.  The males have an orange crown patch bordered in yellow and black, while the females have crowns that are yellow and black.  The males also raise their crowns during aggressive encounters.  Both species of kinglets sing fairly frequently even in the winter, with the male ruby-crowns having a complex, rich warbling song, and the male golden-crowns having a much higher pitched, shorter song.

The female Golden-crowned Kinglet has a gold crown, but it lacks
the orange patch in the middle that only the males have.

Kinglets have a very rapid metabolism and their tiny size means they must constantly forage to keep up with their energy needs.  In fact, they are so small that it would take 3 to 5 birds to total a mere ounce! They are always in motion and continuously flicking their wings.  While seen most often gleaning insects and their over-wintering eggs from tree branches, they can forage anywhere from the ground to the treetops, and often catch active prey while hovering or flycatching.  

This Golden-crowned Kinglet paused briefly from its
nearly constant foraging and feeding.

If prevented from feeding for even twenty minutes, they may lose a third of their body weight and could starve to death within an hour.  Golden-crowns are the smallest birds to routinely survive freezing winter temperatures, and huddle together in protected areas at night.  Their populations decrease during severe winters, particularly when ice storms make foraging much more difficult.    

This season take the time to walk through the winter woods and listen for the gift of song given to us by these littlest of kings.  Take your binoculars, and see if you can spot their crowns of ruby and gold!