╌>

Scientists Still Can't Decide How to Define a Tree

  

Category:  Health, Science & Technology

Via:  bob-nelson  •  6 years ago  •  17 comments

Scientists Still Can't Decide How to Define a Tree

Several years ago, after Thanksgiving dinner at my parents’ house in Vermont, lightning struck a backyard maple tree. There was a ferocious crack and the darkness outside the kitchen windows briefly turned day-bright. It wasn’t until spring that we knew for certain the tree was dead.

This maple was a youngster, its trunk the diameter of a salad plate. Were its life not cut short by catastrophe, the tree might have lived 300 years. But death by disaster is surprisingly common in trees. Sometimes it results from a tragic human blunder, as with the 3,500-year-old Florida bald cypress that was killed in 2012 by an intentionally lit fire. More often, calamity strikes via extreme weather—drought, wind, fire, or ice. Of course, trees also are susceptible to pests and disease; adversaries like wood-decaying fungi can significantly shorten a tree’s life. But the ones that manage to evade such foes can live for an incredibly long time.

lead_960_540.jpg?1522776508 A bristlecone pine
Piriya Photography / Getty

If one is pressed to describe what makes a tree a tree, long life is right up there with wood and height. While many plants have a predictably limited life span (what scientists call programmed senescence), trees don’t, and many persist for centuries. In fact, that trait—indefinite growth—could be science’s tidiest demarcation of tree-ness, even more than woodiness. Yet it’s only helpful to a point. We think we know what trees are, but they slip through the fingers when we try to define them.

Trees don’t cluster into one clear group: They emerge in multiple lineages and have adopted multiple strategies to become what they are. Take longevity. A classic example of the Methuselah-ness of trees is the current record holder, a 5,067-year-old great bristlecone pine that grows high in the White Mountains of California. (That tree was almost 500 years old when the first pyramids were built in Egypt.) Scientists speculate that the hardy bristlecones owe their endurance largely to location: They avoid fires that sweep through lower elevations and pests that can’t stomach the harsh terrain of the subalpine zone. The giant sequoias, a short way down the mountains from the bristlecones, take an entirely different longevity tack. These beasts—their trunks can be about 30 feet across—live thousands of years, fighting fire and pestilence with thick, resistant bark and plentiful in-house repellent compounds.

Some 400 miles to the east, a spindly wisp of a tree has both the bristlecones and the sequoias beat when it comes to life span—through another strategy altogether. The quaking aspen (Populus tremuloides)—a tree you can wrap your arms around that rarely grows taller than 50 feet—excels at sending up new shoots from its base. This results in giant stands of “trees” that are, in fact, one genetic individual connected beneath the ground. A Utah colony of quaking aspen is estimated to be 80,000 years old. Neanderthals were around back then.

Once you add clones to the mix, trees quickly lose their claim on old age. King’s holly (Lomatia tasmanica) is a shiny, green shrub native to Tasmania (shrubs, technically speaking, aren’t trees because they don’t have a central, dominant stem). There is only one population of King’s holly in the world, and scientists think it’s entirely clonal: Although it does occasionally flower, its fruit has never been seen. Recent radiocarbon dating suggests that it (they?) is at least 43,000 years old. Up there too is a scrubby ring of creosote bush out in the Mojave Desert of California, called “King Clone,” with an estimated age of 11,700 years. Longevity is wholly unsatisfying in a search for a unified “tree-ness of trees,” as the forester Ronald Lanner terms it in a 2002 essay in Aging Research Reviews.

Andrew Groover, a geneticist with the U.S. Forest Service Pacific Southwest Research Station who is based in Davis, California, also spends a lot of time thinking about trees. He is quick to acknowledge that defining them is problematic. “Visit your favorite plant nursery and you will find plants categorized by their appearance and function, including a group categorized as ‘trees,’” he writes in a 2005 paper in Trends in Plant Science, “What genes make a tree a tree?” “This categorization is intuitive and practical but contrived.”

Groover points to wood, surely a defining feature of trees, as a case in point. “True” trees (we’ll get to that later) make wood through what scientists call secondary growth; this allows trees to grow out (thicken), in addition to growing up. Secondary growth emerges from a ring of specialized cells that encircle the stem. Called the vascular cambium, these cells divide in two directions: toward the outside of the tree, yielding bark, and toward the center of the tree, yielding wood. Year after year, this wood is deposited in new inner rings of growth that are doped with cellulose and the long, rigid polymer called lignin. After this cellular stiffening, the wood cells are killed and dismantled, for the most part, until nothing but their rigid walls remain.

In plants that exist today, secondary growth probably had a single evolutionary origin, although the now diminutive club mosses and horsetails invented their own version some 300 million years ago, enabling the extinct Lepidodendron, for example, to grow more than 100 feet tall. But secondary growth doesn’t automatically lead to tree-ness: Despite that single origin, woodiness pops up scattershot across the plant family tree. Some groups of plants have lost the ability to form wood; woodiness has reappeared in lineages where it had vanished. It seems to evolve fairly quickly after plants colonize islands. Hawaii, for example, has woody violets, and the Canary Islands have dandelion trees.

The very concept of woodiness is quite flexible, belying its literal robustness—think of the stiff stems of garden salvia or lavender. It’s not a matter of present or absent, but a matter of degree. “Nonwoody herbs and large woody trees can be thought to represent two ends of a continuum, and the degree of woodiness expressed by a given plant can be influenced by environmental conditions,” Groover and a colleague write in a 2010 review in New Phytologist. “Indeed, the terms ‘herbaceous’ and ‘woody,’ while practical, do not acknowledge the vast anatomical variation and degrees of woodiness among plants variously assigned to these classes.”

Molecular biology offers some insights into why the ability to make wood is maintained and reappears so often in plant evolution. Genes that are involved in regulating the growing shoot—the upward, “primary” growth of trees and non-trees alike—are also active during the secondary growth that yields wood. This suggests that these already-existing and essential shoot-growth genes were co-opted during the evolution of woodiness. And it might explain why the ability to become woody is maintained in nonwoody plants and why it’s relatively easy, from an evolutionary standpoint, to dial woodiness back up.

That said, you don’t need wood to be a tree. Monocots, an enormous group of plants that lost the ability to undergo secondary growth, have several arborescent members that aren’t “true” trees but sure look like them. Bananas grow tall with what appears to be a trunk but is really a “pseudo-stem” mass of tightly packed, overlapping leaf bases or sheaths. The true stem of a banana plant emerges only when it’s time to flower, pushing itself up and out through the leaf sheaths. Yet banana trees can be more than 10 feet tall. The family of palms, also monocots, grow tall by extending their initial, fat shoot topped by an enormous bud (note that palm stems don’t widen as they grow tall).

Given all this, perhaps it’s not surprising that a recent analysis of tree genomes tells us little about the defining features of trees. David Neale, a geneticist at UC Davis, and colleagues pored over results from the 41 genomes (including grape) that have been sequenced, beginning with black cottonwood in 2006. Their analysis, published last year in the Annual Review of Plant Biology, did find that trees making edible fruits often have an outsize number of genes devoted to making and transporting sugars, compared with non-edible-fruit trees. Then again, so do tomatoes. Several trees, including spruce, apple, and some eucalyptus, have expanded genetic tool kits for dealing with environmental stresses, such as drought or cold. But so do many herbaceous plants, including spinach and Arabidopsis, that weedy little lab rat of the plant world that is about as un-treelike as you can get.

So far, there is no standout gene or set of genes that confers tree-ness, nor any particular genome feature. Complexity? Nope: Full-on, whole-genome duplication (an often-used proxy for complexity) is prevalent throughout the plant kingdom. Genome size? Nope: Both the largest and smallest plant genomes belong to herbaceous species (Paris japonica and Genlisea tuberosa, respectively—the former a showy little white-flowered herb, the latter a tiny, carnivorous thing that traps and eats protozoans).

A chat with Neale confirms that tree-ness is probably more about what genes are turned on than what genes are present. “From the perspective of the genome, they basically have all the same stuff as herbaceous plants,” he said. “Trees are big, they’re woody, they can get water from the ground to up high. But there does not seem to be some profound unique biology that distinguishes a tree from a herbaceous plant.”

Notwithstanding the difficulty in defining them, being a tree has undeniable advantages—it allows plants to exploit the upper reaches where they can soak up sunlight and disperse pollen and seeds with less interference than their ground-dwelling kin. So maybe it’s time to start thinking of tree as a verb, rather than a noun—tree-ing, or tree-ifying. It’s a strategy, a way of being, like swimming or flying, even though to our eyes it’s happening in very slow motion. Tree-ing with no finish in sight—until an ax, or a pest, or a bolt of Thanksgiving lightning strikes it down.

=============================

Original article

by Rachel Ehrenberg

The Atlantic

There may be links in the Original Article that have not been reproduced here.


Tags

jrDiscussion - desc
[]
 
Bob Nelson
Professor Guide
1  seeder  Bob Nelson    6 years ago

Hey! Wadda ya mean, I don't know what a tree is??

 
 
 
luther28
Sophomore Silent
2  luther28    6 years ago

A tree whose hungry mouth is prest Against the sweet earth's flowing breast; A tree that looks at God all day, And lifts her leafy arms to pray; A tree that may in summer wear A nest of robins in her hair; Upon whose bosom snow has lain; Who intimately lives with rain.

Joyce Kilmer said it quite nicely me thinks.

 
 
 
Bob Nelson
Professor Guide
2.1  seeder  Bob Nelson  replied to  luther28 @2    6 years ago

That's a pretty good description. Poetry is another kind of truth.

 
 
 
Buzz of the Orient
Professor Expert
2.2  Buzz of the Orient  replied to  luther28 @2    6 years ago

I think you got it right with Kilmer who thought she'd never see a poem lovely as a tree.  But when I think about that it brings to mind what Eleanor Arroway (Jodi Foster) said in the movie "Contact" when she saw the unworldly sky where she had been whisked: "They should have sent a poet." In a way, I guess, it takes a poet to properly describe a tree.

 
 
 
JohnRussell
Professor Principal
2.2.1  JohnRussell  replied to  Buzz of the Orient @2.2    6 years ago
I think you got it right with Kilmer who thought she'd never see a poem lovely as a tree.

Joyce Kilmer was a guy. 

He was killed in combat in WWI.

 
 
 
Buzz of the Orient
Professor Expert
2.2.2  Buzz of the Orient  replied to  JohnRussell @2.2.1    6 years ago

My apologies to his spirit, but then maybe it thinks I paid him a compliment.

 
 
 
Perrie Halpern R.A.
Professor Expert
3  Perrie Halpern R.A.    6 years ago

Well, I know that it is much more than woodieness., because that would make bamboo trees and they are considered a grass. 

Yet if we go with the definition of longevity, you would have to remove trees like mimosas, weeping willows, tree of heaven (ailanthus), and many evergreens. 

And then what is a bush? A small tree? 

Interesting article

 
 
 
epistte
Junior Participates
3.1  epistte  replied to  Perrie Halpern R.A. @3    6 years ago

A bush seldom has a single central leader(trunk) like a tree.

 
 
 
Greg Jones
Professor Participates
5  Greg Jones    6 years ago

Sequoias are awesome! Sorry about the double-double-double spacing...something wrong with the system.

Sequoiadendron giganteum  Found on the Western slope of the Sierras. Trees with the most volume.

Sequoia sempervirens aka Coast Redwood, the world' tallest tree

Metasequoia glyptostroboides , the dawn redwood , is a fast-growing, endangered deciduous conifer , the sole living species of the genus Metasequoia , one of three species in the subfamily...known from the Cretaceous to the present.

 
 
 
Bob Nelson
Professor Guide
5.1  seeder  Bob Nelson  replied to  Greg Jones @5    6 years ago

We hope to do a "California parks" road trip one of these years. Hélène has a Green Card now, so the calendar can be pretty much whatever we like. (France doesn't care where we are.) Sequoia, Yosemite, Yellowstone, ...

Until now we were constrained by a six month maximum in the US, but now it's the opposite:six month minimum. The parks being closed in winter, we were stuck. I really want to see these trees...

 
 
 
Perrie Halpern R.A.
Professor Expert
5.2  Perrie Halpern R.A.  replied to  Greg Jones @5    6 years ago

I fixed it! 

 
 
 
Kavika
Professor Principal
9  Kavika     6 years ago

100_0163.JPG

 
 
 
Kavika
Professor Principal
9.1  Kavika   replied to  Kavika @9    6 years ago

100_0155.JPG Mendocino redwoods....

 
 
 
Buzz of the Orient
Professor Expert
10  Buzz of the Orient    6 years ago

What has brought us so many variable uses as a tree?  I'm sure I leave out many when I list them:

Shade on a hot sunny day, photosynthesis to clean the air, visual beauty, construction materials for shelters/homes (including cedar closets to repel moths), furniture and furnishings, carved decorative items and toys, flaming heat for warmth and cooking, paper and cardboard, sap and fruit and nuts for sustenance, bowls and dishes, weapons for hunting like bows and arrows, boats and rafts by carving out logs or using birch bark, roots that support hillsides from mudslides, safe homes for certain birds and animals, toothpicks, coffins, handles (not including the ones the vandals took)...............

 
 
 
Kavika
Professor Principal
10.1  Kavika   replied to  Buzz of the Orient @10    6 years ago

“No tree has branches so foolish as to fight among themselves.” 

Ojibwe saying.

 
 
 
Raven Wing
Professor Participates
10.1.1  Raven Wing   replied to  Kavika @10.1    6 years ago

Exactly! 

 
 

Who is online





Thomas


468 visitors