Showing posts with label pollen. Show all posts
Showing posts with label pollen. Show all posts

Thursday, June 25, 2009

Flora Dispersal and Climate Change

It one replaces the phrase global warming with the more generic warm spell, this paper would be a bit easier to take. The important observation is that warmer conditions produce a sharp jump in dispersal beyond expectations.

An increase in forest fire activity may also be a factor. Such fire clearance removes underbrush and deadfalls, opening up the soils themselves.

I need to go a bit further than that. Under a full canopy and fully developed brush cover, spring is delayed for quite a while. Thus a big part of expanded growth may actually reflect a better capacity to take advantage of the spring growth spurt.

There are a lot of assumptions packed into this paper, but the details may turn out to be interesting, such as the jump in dispersal during warm years. What is reported in this article is the hand full of results showing large variation. I presume there is a mass of consistent results showing more modest variation.

Jun 19, 2009
Global warming increasing the dispersal of flora in Northern forests

As a result of stronger winds caused by global warming, seeds and pollen are being carried over longer distances. An increase in temperature of only a couple of degrees may increase the dispersal of plants in Northern forests and the spread of plant species into forest clearings after felling or forest fires.

University of Helsinki researcher Anna Kuparinen headed the international research into the impact of global warming on seed and pollen dispersal. The goal was to learn whether global warming would accelerate the dispersal of plant populations in forests. The research group utilised the micrometeorological data gathered over a decade at the Hyytiälä Forestry Field Station. Carried out mainly at the University of Potsdam in Germany, the research findings were published in Proceedings of the Royal Society B on 10 June 2009.

Seed and pollen dispersal profoundly affects the dynamics and genetic variation of plant populations. Spreading into more favourable areas will help them survive in the warming climate. Wind conditions play a key role, as turbulent vertical streams, in particular, spread seeds very efficiently, even over long distances.

The researchers also discovered that a temperature that is only three degrees Celsius warmer increased the dispersal of seeds and the speed at which populations spread throughout the growth season. Particularly for those plants which have light seeds, the annual spreading speed increased dramatically, by approximately 30–40 meters.

On the basis of these results, it seems that global warming accelerates the spread of plants, but it will not alone be sufficient to help plant populations to relocate to new vegetation zones. However, on a more local level, global warming may have a significant impact, as original and newly introduced species spread faster from one place to another and take over new patches of habitat. The combined effects of global warming are difficult to predict, and the research carried out by Kuparinen's team illustrates the complexity of ways in which increased temperatures may affect the flora in Northern forest habitats.

Thursday, February 12, 2009

Ancient Manioc Husbandry

Finding this item from 2007 gives us an important snapshot of a key crop in the American tropics and informs us that key crops easily moved between the Amazon and Central America as one would reasonably expect but was disputed because of a lack of evidence. The existence of a properly laid out Manioc planting bed whose human component is utterly beyond any reasonable dispute assures us that Manioc culture was a certain staple throughout Central America as well as South America.

It also helps to explain the economic viability of the ditch and bank agriculture that supported the Maya. Manioc is a huge producer of starch on a per foot basis and rotated with the three sisters and the use of ditch mud as fertilizer we have an extremely productive and secure food system fully justifying the implied labour.

The lack of draft animals forced the Indians to become hyper efficient in the use of their backs and these growing methods including the planting beds found by the archeologists tell us this.

I am actually surprised that the use of manioc was not uncovered with routine pollen analysis long since, but that may well be shrouded in the archeological record with conflicting evidence.

First Ancient Manioc Fields In Americas Discovered

ScienceDaily (Aug. 24, 2007) — A University of Colorado at Boulder team excavating an ancient Maya village in El Salvador buried by a volcanic eruption 1,400 years ago has discovered an ancient field of manioc, the first evidence for cultivation of the calorie-rich tuber in the New World.

The manioc field was discovered under roughly 10 feet of ash, said CU-Boulder anthropology Professor Payson Sheets, who has been directing the excavation of the ancient village of Ceren since its discovery in 1978. Considered the best-preserved ancient village in Latin America, Ceren's buildings, artifacts and landscape were frozen in time by the sudden eruption of the nearby Loma Caldera volcano about 600 A.D., providing a unique window on the everyday lives of prehistoric Mayan farmers.

The discovery marks the first time manioc cultivation has been discovered at an archaeological site anywhere in the Americas, said Sheets. The National Geographic Society funded the 2007 CU-Boulder research effort at Ceren, the most recent of five research grants made by NGS to the ongoing excavations by Sheets and his students.

"We have long wondered what else the prehistoric Mayan people were growing and eating besides corn and beans, so finding this field was a jackpot of sorts for us," he said. "Manioc's extraordinary productivity may help explain how the Classic Maya at huge sites like Tikal in Guatemala and Copan in Honduras supported such dense populations."
In June, the researchers used ground-penetrating radar, drill cores and test pits to pinpoint and uncover several large, parallel planting beds separated by walkways, said Sheets. Ash

Tuesday, May 27, 2008

The Incredible Cattail

I came across this ten year old article on cattails by Kevin Duffy that is well worth sharing. As I have posted, we are searching for a high yield method of producing ethanol and biofuels in general.

We have seen the use of subsidies to promote the growing of corn for making ethanol. Yet a crop yield of three to four tons or so per acre is about as good as it gets. The ten to fifteen tons of waste material is not yet a credible feedstock, even though the promoters are talking the talk.

Potatoes, which I have recently posted on, are good for yields of around fifteen tons per acre, making it the star of our agricultural sources of ethanol feedstock, although I do not know if anyone has started using them. They are probably waiting for a subsidy. In any event, when the moisture is deducted the dry weight is a lot less than the original and likely approaches five tons or much the same value as corn.

Our best guess, when it comes to real oil yields from algae is also around five tons per acre with strong potential for increasing into the teens if we are prepared to build massive greenhouse facilities.

It is becoming obvious that we need something a lot better than what we have here if we hope to produce a great deal of the ethanol that we need.

And then I came across this article on the cattail that we all know and have ignored. It turns out that the yield per acre is an astounding 140 tons of rhizomes. It also almost certainly produces another thirty tons or so of reeds that also might be used. The dry weight of this bounty is thirty two tons, easily ten times the competition.

It is ninety percent starch making it an easy fit into the ethanol industry. So far it is the only plant based protocol able to deliver this much ethanol feedstock. That is twice to three times as much by weight of its nearest cellulose crop of corn stover or bagasse.

Therefore, if the regulators have any sense, they will tailor their pro ethanol regime around the production of starch and that will catch any high starch production protocol like this.

The bonus here is that the horticulture of the cattail will rarely compete directly with other crops. We are actually looking to develop water logged paddies similar to rice culture and we will likely be looking at valley bottoms and bogs long since ruined for agriculture, if ever attempted.

The article describes the various products that can be produced and have been produced in the past. The plant has never been exploited properly because it originally needed an inconvenient amount of hand labor compared to other options. We can over come that today and if we domesticate it properly we will be able to also produce a high quality seed. Right now the seed is too small to be of much value.

As reported in the article, the plant is edible, particularly as a spring vegetable. Therefore a grower can expect to produce seasonal products through the year that may add commercial value. The markets are yet to be established but it seems fairly straight forward.


The incredible cattail

The super Wal-Mart of the swamp
By Kevin F. Duffy

I can think of no other North American plant that is more useful than the cattail. This wonderful plant is a virtual gold mine of survival utility. It is a four-season food, medicinal, and utility plant. What other plant can boast eight food products, three medicinals, and at least 12 other functional uses?

The Common Cattail (Typha latifolia) and its brethren Narrowleaf Cattail (Typha angustifolia), Southern Cattail (Typha domingensis), and Blue Cattail (Typha Glauca), have representatives found throughout North America and most of the world. While living in Northern Japan, I spent many chilly mornings in snow storms among miles of cattails while duck hunting. Cattail is a member of the grass family, Gramineae, as are rice, corn, wheat, oats, barley, and rye, just to mention a few. Of the 15 most commonly consumed domesticated plant foods, 10 are grasses. However, of more than 1300 wild grasses, none holds a loftier position as a survival food than cattail. Just about any place you can find year-round standing water or wet soil, you can usually find cattails.

In Euell Gibbons’ Stalking the Wild Asparagus, his chapter on cattails is titled “Supermarket of the Swamp.” As you will see, this title aptly applies to the cattail. However, due to its medicinal and utilitarian uses, we may want to mentally modify the title to “Super Wal-Mart of the Swamp.”

Identification

Cattails are readily identified by the characteristic brown seed head. There are some poisonous look-alikes that may be mistaken for cattail, but none of these look-alikes possess the brown seed head.

Blue Flag (Iris versicolor) and Yellow Flag (Iris pseudoacorus) and other members of the iris family all possess the cattail-like leaves, but none possesses the brown seed head. All members of the Iris family are poisonous. Another look-alike which is not poisonous, but whose leaves look more like cattail than iris is the Sweet Flag (Acorus calumus). Sweet Flag has a very pleasant spicy, sweet aroma when the leaves are bruised. It also does not posses the brown seed head. Neither the irises nor cattail has the sweet, spicy aroma. I have seen large stands of cattails and sweet flag growing side by side. As with all wild edibles, positive identification is essential. If you are not sure, do not eat it.

Corms, shoots, and spikes

In just about any survival situation, whether self-imposed or not, one of the first plants I look for is the cattail. As a food plant, cattails are outstanding and offer a variety of food products according to the season. In early spring, dig up the roots to locate the small pointed shoots called corms. These can be removed, peeled, and eaten, added to other spring greens for a salad, or cooked in stews or alone as a pot herb. As the plant growth progresses to where the shoots reach a height of two to three feet above the water, peel and eat like the corms, or sauté. This food product is also known as “Cossack Asparagus” due to the Russians’ fondness for it.

In late spring to early summer, some of my favorite food products come into fruition on the cattail. Soon after these shoots become available, the green female bloom spikes and the male pollen spikes begin to emerge. These spikes can be found in the center of the plant and form a cylindrical projection that can only be detected when you’re close to the plant. Peel back the leaves in the same way you would shuck corn, and both the male portion above and the female below can be seen. The female portion will later develop into the familiar brown “cattail” seed head from which the plant’s name is derived. The male portion will atrophy into a small dried twig that may easily break off the top of the seed head. Both the male and female pollen spikes can be boiled and eaten like corn on the cob, and both are delicious. The male portion provides a bigger meal at this stage. They have a flavor that is corn-like, but distinct from corn. I cannot imagine anyone finding the flavor objectionable. Both may also be eaten raw.

Pollen and root starch

Later, the male pollen head will begin to develop an abundance of yellow pollen with a talcum powder consistency that can easily be shaken off into any container. Several pounds of this can be collected in less than an hour. The traditional use of this pollen is to substitute for some the flour in pancakes to make cattail pancakes. This also works well with cornbread. Other uses of the pollen include thickeners or flour extenders for breads, cakes, etc.

In late summer to early fall, the tender inner portions of the leaf stalk may still be collected, but the availability of this Cossack Asparagus begins to dwindle, due to the toughening up of the plant. During this period and all the way to spring, the most abundant food product, the root starch, may be harvested. It is so abundant, a study was conducted at the Cattail Research Center of Syracuse University’s Department of Plant Sciences. The chief investigator of the project was Leland Marsh. The reported results were as follows:

Yields are fantastic. Marsh discovered he could harvest 140 tons of rhizomes per acre near Wolcott, NY. That represents something more than 10 times the average yield per acre of potatoes. In terms of dry weight of cattail flour, the 140 tons of roots would yield approximately 32 tons.

To extract the flour or starch from the cattail root, simply collect the roots, wash, and peel them. Next, break up the roots under water. The flour will begin to separate from the fibers. Continue this process until the fibers are all separated and the sweet flour is removed. Remove the fiber and pour off the excess water.

Allow the remaining flour slurry to dry by placing near a fire or using the sun.

Cattail root flour also contains gluten. Gluten is the constituent in wheat flour that allows flour to rise in yeast breads. The Iroquois Indians macerated and boiled the roots to produce a fine syrup, which they used in a corn meal pudding and to sweeten other dishes. Some Indians burned the mature brown seed heads to extract the small seeds from the fluff, which was used to make gruels and added to soups.
Medicinal and other uses

The medicinal uses of cattails include poultices made from the split and bruised roots that can be applied to cuts, wounds, burns, stings, and bruises. The ash of the burned cattail leaves can be used as an antiseptic or styptic for wounds. A small drop of a honey-like excretion, often found near the base of the plant, can be used as an antiseptic for small wounds and toothaches.

The utility of this cattail is limited only by your imagination. The dried stalks can be used for hand drills and arrow shafts. The seed heads and dried leaves can be used as tinder. The seed head fluff can be used for pillow and bedding stuffing or as a down-like insulation in clothing. The leaves can be used for construction of shelters or for woven seats and backs of chairs, which has been a traditional use for hundreds of years.

They can be woven into baskets, hats, mats, and beds. The dried seed heads attached to their stalks can be dipped into melted animal fat or oil and used as torches.

The next time you see “The Super Wal-Mart of the Swamp,” why don’t you do some shopping?

Sources

1. Gibbons, Euell, Stalking the Wild Asparagus. Alan C. Hood and Company, Putney, Vermont; 1962. 303 pp.

2. Harris, B., Eat The Weeds. Barre Publishers, Garre, MA; 1971. 223 pp.