Mosses of Central Florida 45. Schwetschkeopsis fabronia

Schwetschkeopsis fabronia (Sull.) Broth. (Myriniaceae) is a creeping moss found at the bases of hardwood trees and on rocks. Leaves are scale-like and more-or-less pressed to the stem. Slender, whip-like shoots may also present.

A dried specimen of Schwetschkiopsis fabronia from the USF Herbarium (M. Newberry, s.n., 18 February 1971, Hillsborough River State Park). The scale-like leaves fold against the stem, making the shoots look like juniper twigs.

Leaf cells are long-oval, slightly bumpy on the upper surface due to projections of the cell walls at the upper end.  The midrib is lacking, very faint, or briefly double.  Spore capsules are upright and more-or-less symmetrical,but have been rarely collected.

The tip of the shoot, showing the short, scale-like leaves.

Light spots at the end of each cell indicate the
 characteristic projections of the thick cell walls.

This species is similar in appearance to Clasmatodon parvulus, but the latter has a distinct midrib.  Papillaria nigrescens is also similar, but with larger leaves, a more distinct midrib, and more elongate leaf cells, each with several papillae.


It is found in Florida from the panhandle southward to Highlands County.  Elsewhere, it is found throughout the eastern U.S., west to Texas, and also in the West Indies and Asia. 

Mosses of Central Florida 44. Herpetineuron toccoae

Wet plants of Herpetoneuron toccoae growing in Macao.
Photo by Li Zhang, posted on the Southern
Illinois University website.

Herpetineuron toccoae (Sullivant & Lesquereux) Cardot (Anomodontaceae) is a creeping moss found on tree bases and rocks.

The leaves spread on both sides of the stem when wet, like other common mosses, such as Isopteryigium, but roll inward and press to the stem when dry.  The leafy shoots also tend to curve to one side when dry.  The leaves also have a distinct midrib, which is somewhat wavy as it approaches the toothed tip. Leaf cells are ovate-angular. It is not known to produce spore capsules in the U.S.

The midrib of the leaf is a bit wavy toward the slightly toothed tip. From a
dried herbarium specimen, Griepenburg 130, USF.

This pantropical species occurs throughout the southeastern U.S., north to Illinois,  and has been reported from Arizona.

In Florida, it has been reported from Franklin Co and spottily in counties along the Gulf  Coast as far south as Hillsborough County.

Leaf cells are oval to angular.

Dried plants. Photo by Blanka Shaw, posted on Consortium of North
American Bryological Collections website.

What's killing our trees?

"Our industrial society with its attendant air pollution is slowly killing our forests, as it has the forests of eastern Europe, weakening and stressing trees, and making them more susceptible to cold winters and attack by pathogens."  Paul Donahue, in Tree Death and Forest Decline.

Dying forests in eastern Europe. Photo by Lovecz, posted on Wikimedia Commons. 

Forests in the eastern U.S., the Rocky Mountains, and California are all seeing massive death of forest trees.  This in turn adversely affects the survival of other plants, as well as of animals dependent on those trees, and biodiversity is seriously diminished.  Yet there are misconceptions, put out deliberately by special interests or arising from ignorance, about what exactly is killing our forests. 

Donahue continues:

"One criticism often leveled by opponents of stricter air pollution standards is that acid rain or other pollutants don't kill trees, that they are actually killed by cold winters or by insects or fungus or some such agent." 

Those who lobby for relaxing pollution standards are using carefully selected facts out of context to support a particular agenda (one of the tools of pseudoscience). It is true that the trees in forests like those above are killed by insects, pathogens and extreme weather, but what is carefully ignored is the fact that such death is greatly increased after the trees have been seriously stressed or weakened by air pollution or changing climate patterns.

In the eastern U.S., as discussed in detail by Donahue, the immediate cause of death has often been severe weather, but trees that have been weakened by acid rain are more prone to damage than healthy trees.  Acid rain results from burning sulfur-containing fossil fuels by industry and from the nitrogen oxide component of automobile exhaust.

In the Rocky Mountains, the Sierra Nevada, and elsewhere in the west, the Mountain Pine Beetle is often blamed.  But this a native species of insect that has been here for thousands of years.  Beetle larvae overwintering below the outer bark of the trees are normally killed by cold weather, keeping the populations under control. They are having a much greater impact now because of higher than normal temperatures and lower rainfall in the past ten years, which also stresses the trees. These changes are part of overall global climate change. 

There is a misconception about climate change, voiced frequently by ignorant government officials, that it will be expressed as a uniform and consistent warming everywhere.  Climate change actually results in a complex array of disruptions that include more temperature and precipitation extremes, both up and down.  So vicious winter storms and extreme low temperatures are part of that disruptive pattern.

The planet is indeed warming overall, as is evident in the melting of the polar ice caps, which in itself will result in complex repercussions in oceanic currents and climate patterns, as well as the rising sea levels that threaten coastal human populations and entire low-lying nations.

"Those who deny the existence of climate change and rising sea levels, who want to do away with environmental protection agencies, who oppose treaties on clean air and reduction of carbon emissions, and who want to open up national parks and other wild lands to mining and other economic exploitation, just don't get it, and must be rejected."

This quote is from my October 2016 essay on endangered species and population growth.  Unfortunately, the fears expressed have been chillingly born out. The current governmental leadership in the U.S. is moving rapidly backwards on issues of air quality, climate change, and protection of public lands.  

Americans have another opportunity in the upcoming congressional elections to choose more environmentally supportive representatives.  Can those of us who understand and respect science, and who care about the environment and biodiversity, make a difference?

Given the many highly publicized and polarizing issues grabbing voter attention this year, it may seem hopeless.  But even if we can tip the scales on some tight congressional elections, even helping elect one or two conscientious representatives, we can make a difference.  You can help in a number of ways:

ASK your representatives or candidates what their stand is on air quality standards and other environmental issues.

EDUCATE your current representatives about important environmental issues and urge them to do the right thing.

If they will not be educated, REPLACE them.  Support candidates who understand the issues and will stand up for them.

VOTE for the best available candidates, Democrat or Republican.  

Though environmental protection has in recent decades has been associated primarily with the Democratic Party, an exchange of letters in a recent Sierra Club Magazine demonstrated that many conservatives also cherish our natural heritage and support the Club's fundamental mission.  This was expressed some time ago in a post from the Missouri chapter of the Sierra Club (click here).  In fact, an organization called Republicans for Environmental Protection (now called ConservAmerica) was established in 1995.  

The primary elections in both parties are the first opportunity to bring better candidates forward.  Republican candidates who support the environment particularly need support.

If you are among the many readers of this blog who do not reside in the U.S., do what you can in your own elections when they come up, and best of luck.  All nations must work together to protect our global ecosystem.

Mosses of Central Florida 43. Micromitrium

There are three species of Micromitrium (Ephemeraceae) in our area: M. megalosporum Austin

Micromitrium tenerum at a drying pond edge.  Permission pending from
Okayama University of Science, http://www1.ous.ac.jp/garden

M. tenerum (Bruch & Schimp.) Crosby and M. synoicum (James) Austin.  These are tiny short-lived plants that form sparse colonies on bare soil along drying pond edges.  The plants form rosettes with a single, globose sporangium nestled among the leaves.  Their leaves lack a midrib and the leaf cells are elongate, somewhat curved (worm-like) and smooth.

They are similar to Ephemerum crassinervium, which is in the same family, but that species has leaves with  distinct midribs, more ovoid capsules, and papillose cells near the tip of the leaf.

The ranges of the three species overlap, as they all occur throughout eastern North America. M. tenerum has been also reported from British Columbia, and M. synoicum from Oregon.  In Florida, they are all found primarily in the panhandle region, with reports from as far south as Polk County. None are collected very often, however, as they are short-lived and hard to see.

In M. megalospermum the leaves are broadly ovate and the spore capsule opens irregularly, while in M. synoicum and M. tenerum the leaves are lance-shaped, and the capsules open along a distinct ring around the middle or above.

In M. synoicum the leaves are erect, with smooth, somewhat incurved margins and have distinct stems below the crown of leaves, while in M. tenerum the leaves are spreading, with flat margins, and teeth at the tips, and the plants are stemless.

Mosses of Central Florida 42. Papillaria nigrescens

Papillaria nigrescens (Hedwig) A. Jaeger (Meteoraceae) occurs on tree bark in shaded, humid hammocks.  It's leaves are scale-like and pressed against the stem, giving the yellowish to blackish leafy shoots the appearance of tiny juniper twigs.  Some shoots have drooping, whip-like extensions with sparser, smaller leaves, or are nearly naked with a small tuft of leaves at the ends.  This species is not known to produce spore capsules in our area.

Dried specimen of Papillaria nigrescens, collected in Hillsborough River State Park on bark of hardwood tree (Griepenburg 10, USF) 

The main leaves are ovate, but gradually narrowing to a sharp tip.  Leaf cells are narrowly-ovate and tapered, and somewhat wavy (worm-like) with papillae (hard, translucent bumps). The midrib reaches to about mid-leaf, though may not be very distinct.

The scale-like leaves of Papillaria gradually taper to a sharp
tip. A faint midrib extends a little more than half the leaf
length.

This species has been found throughout Florida, but collected only occasionally.  It occurs throughout the New World tropics, and elsewhere in the U.S. it has only been found in southern Louisiana. It has previously been known as Meteorium nigrescens.

Leaf cells in Papillaria are elongate, tapered and somewhat wavy.  The papillae (hard, translucent dots) can be seen lined up along the length of each cell.

Mosses of Central Florida 41. Tortella

The genus Tortella (Pottiaceae) includes two species found in Florida.  The genus is distinguished from other members of the family, such as Barbula or Hyophiladelphus by the distinctive V- or U-shaped boundary between the large basal region of clear cells and the upper green cells.  It shares with them the elongate leaves with strong midrib, and the upright spore capsules with long twisted teeth around the opening.  Leaf cells in the upper part of the leaf are small, round and papillose.

Leaves of Tortella densa illustrate the distinctive leaves of the genus.  Note the V-shaped boundary between the large clear cells at the base and the smaller green cells of the tip.  Photo by Hermann Schachner, posted on Wikimedia, Creative Commons license.

The long, twisted teeth around the opening
of the spore capsule, characteristic of
Tortella and several other genera of the
Pottiaceae.  Photo courtesy the Western
New Mexico University, Department of
Natural Sciences and the Dale A.
Zimmerman Herbarium,
Plants of the Gila Wilderness.

Tortella flavovirens (Bruch) Brotherus and T. humilis Hedwig both form low colonies of upright leafy shoots, with leaves distributed uniformly around the stem (radially symmetrical).  Capsules arise from the tips of the shoots. In T. humilis the stems are  elongate, forming loose tufts, while in T. flavovirens, they are more compact, forming dense mats of rosettes.

In Florida, both species occur scattered throughout the state. Tortella humilis is found throughout eastern North America and in scattered mountain locations from New Mexico to British Columbia. It is found inland on soil, tree bases, and rocks. T. flavovirens has a more southern distribution, from Texas to North Carolina. It is tolerant of salt spray and is confined to coastal vegetation.

Mosses of Central Florida 40. Vesicularia vesicularis

Vescicularia vesicularis growing at Castellow Hammock,
Miami-Dade County. Photo by Scott Zona

Vesicularia vesicularis (Schwagrichen) Brotherus (Hypnaceae) is a creeping
moss found on moist soil, logs, rocks, and sometimes submerged in running water.  The ovate, smooth-edged leaves lack a midrib, but may have two very short ribs at the base. Leaf cells are oval to diamond-shaped in the upper leaf, somewhat smaller and roundish at the base.  The spore capsules are symmetrical and short-cylindric, becoming constricted below the opening when dry, and are nodding by a bend in the upper stalk.

The capsules of Vesicularia are nodding or slightly skewed to the side, but not asymmetric like
Isopterygium.  Photo by Scott Zona.

This species is similar in habit and general appearance to the common Isopterygium tenerum, which is also in the Hypnaceae, from which it differs most clearly by the shape of the leaf cells and the spore capsules.  In Isopterygium, the leaf  is more drawn out into a narrow tip, which is somewhat toothed, and the leaf cells are elongate and worm-like.  The capsules in Isopterygium are asymmetric and bent to the side like a bird's head.

This is a tropical species found throughout the new world tropics. In the U.S. it is found only in Florida and Louisiana. In Florida it has been collected in scattered locations throughout the peninsula and in Santa Rosa County.