UBER ORGANIC & A BEAUTIFUL BLOSSOM
‘Tis the Season
’Tis the season to really put the “organic” in organic gardening. “Organic,” as in organic materials, natural compounds composed mostly of carbon, hydrogen, and oxygen. “Organic,” as in materials that are or were once living, things like compost, leaves, manure, and hay.
I’ve spread compost over almost all my vegetable garden beds. A one inch depth laid atop each bed provides all the nutrients the vegetable plants need for a whole season, in addition to other benefits such as snuffing out weeds, holding moisture, improving aeration, and nurturing beneficial, pest-fighting organisms.
I’m also finishing up the bulk of making new compost for the year. Pretty much everything organic — old vegetable plants, kitchen trimmings, even old cotton clothing — go into the compost piles. The primary foods, though, are hay, which I scythe, rake up, and then haul over from my hayfield, and horse manure, which I pitchfork into the bed of my truck, then unload into a garden cart to haul over to the compost bins.
Autumn leaves piled up last year have rotted down into “leaf mold,” essentially the same material as compost, with the same benefits. This pile arrived as a truckload last autumn thanks to the generosity of a local landscaper. The leaf mold isn’t quite as thoroughly broken down as the compost so I’m hauling that over to all my young trees and shrubs, and then spreading it beneath them.
I’m also on the lookout for trash bags stuffed with leaves. Local leaf gatherers/baggers contact me when bags are ready for pickup. I toss the bulging bags into the bed of my pickup truck, then haul them over to and unbag them beneath my blueberry, raspberry, currant, and gooseberry bushes.
Organic Matters
All this compost, hay, manure, leaf mold, and leaves are food for soil organisms. Most of the food is carbohydrates, the carbon, hydrogen, and oxygen that combine to make sugars, starches, cellulose, chitin, and pectin of living organisms. As carbohydrates are gobbled up, nutrients are released for plants.
In their raw state, these organic materials are relatively low in plant nutrients. Compare the one pound of phosphate you get from ten pounds of 10-10-10 chemical fertilizer with the 100 pounds of compost you need to offer that same amount of phosphorus.
You could get that one pound of phosphate from only ten pounds of an “organic” source such as bone meal. That would be easier than shoveling out 100 pounds of compost — but the soil would then be deprived of 90 pounds of carbohydrate and other bulk that feeds soil organisms and, in turn, bestows physical, nutritional, and biological benefits in the soil.
So I’m continuing to haul manure, hay, leaves, leaf mold, and compost for my garden. It’s also good exercise.
A Beaut’ Worth Reviving for Winter
Much lighter work is digging up an amaryllis bulb. I’ve always considered amaryllis too gaudy a plant, one giant, often flaming red flower appearing atop a bare stalk in early winter. And then, last autumn, someone sent me a big, fat amaryllis bulb along with a pot to plant it in, as well as some potting mix. How could I help but plant it?
Amaryllis now
The flowers were prolific and awesome, flower after flower (yes, flaming red) appearing on each stalk, and stalk after stalk of flowers. This one was a keeper.
Green leaves, the more the better, are what fuel the following year’s blossoms. (One flower stalk for every nine leaves, according to one source.) Periodic little fertilizer and, as needed, water kept the plant growing well until warm weather settled in for good in spring. Then I tipped the bulb out of its pot and nestled into a hole in a bed in part shade with rich soil and drip irrigation.
Amaryllis late last winter
Just before a night when temperatures dipped into the low 20s, I dug up the bulb and potted it up. It now sits, unwatered and leafless, in the cool temperatures of my north-facing mudroom. A couple of months of cool temperatures, 50 to 60°F, is good for waking up the flower buds within the now fatter bulb — and its small, baby pup, thank you.
CHANGING STEMS, CHANGING LEAVES
Korean Giant Pear, In Training
Stepping down the two stones at one end of my bluestone wall, a friend looked up and asked, “Are you torturing or training this tree?” He was referring to the tree on one side of the the stairway, one long stem of which was arching overhead, held in that position with a string tied to a stone on the opposite side of the stairway.
“Training,” I replied. The stem was being coaxed into this seemingly submissive position both for form and function. Not to inflict pain.
But first, something about this tree. It is an Asian pear, the variety Seuri Li that I created many years ago by grafting a Seuri Li stem on a semi-dwarfing rootstock (OH x F 513). It’s initial training was as an en arcure espalier. Deer found the young pear trees sitting high enough on the backfilled soil behind the wall a convenient smorgasbord; they didn’t even have to bend down to nibble at them. So the espalier became a deer-modified en arcure.
Seuri Li never bore as well as the other Asian pears — Yoinashi, Yakumo, and Chojuro — trained above that wall. Last year I lopped back one major stem of Seuri Li and grafted a stem of the variety Korean Giant onto the stump. The graft “took,” and fueled by the established root system, buds from the grafted stem soared skyward.
Growth from the graft was vigorous enough to start a large arch over the two stone stairway. A very big en arcure.
Hormonal Control
Training to en arcure entails bending the single stem of a young fruit tree over to its neighbor. Typically, a bud near the high point of the arch will grow out into a vigorous shoot which is then bent in an arch in the opposite direction, to its neighbor on the other side. The vigorous shoot growing from the high point of that second arch is trained back to the next tier of arch of first neighbor. And so on, as high as desired.
The end result is a flat plane of adjacent trees decoratively linked as a living fence.
The fence might be considered functional, but the truly functional aspect of en arcure is physiological. Enhanced vigor of the highest buds can be traced to a plant hormone, auxin. Auxin, present in all plants, is synthesized in the uppermost growing points of a plant, either the tip of a vertical stem or the high point of an arched stem. But this auxin also puts the brakes, to some degree, on growth from buds below that high point.
Growing fruit takes energy, as does growing stems; more fruit means less stem growth, and vice versa. (Left to their own devices, plants more or less balance these needs themselves, although not always to our satisfaction, which is why you have to pluck off peach fruitlets so that a peach tree can pump more energy into the fewer — and resulting — tastier fruits that remain.) Bending a branch over quells its growth, coaxing it to divert more energy to making fruit — except for the uppermost bud, which puts out a vigorous shoot.
My plan, then, is to have that long stem of Korean Giant pear festooned with flowers in spring and fruits in autumn as it arches over the stone stairs. Plants don’t read plant physiology books and tow the line to all this theory, but I’m confident in a fruitful, decorative future for my plant because Asian pears generally are very eager to bear fruit.
Uncommon Autumn Color
Speaking of physiology, I wrote last week about the carotenoids, tannins, and anthocyanins that make autumn so warmly colorful, and especially so this year here in the Hudson Valley. A few plants, not commonly planted, are contributing boldly to that warmth.
•Japanese Stewartia (Stewartia pseudocamellia) earns its keep year-round, with rich, red autumn leaf color right now, bark mottled in hues of gray and brown in winter, and camellia-like flowers in early summer.
Stewartia in autumn
•Fothergilla (Fothergilla major) also earns its keep for much of the year, with bottlebrush clusters of fragrant, white flowers in spring and leaves that turn brilliant shades of yellow, orange and red in autumn.
Fothergilla in autumn
•Korean mountainash (Sorbus aucuparia) bears flat-topped clusters of white flowers in spring. In autumn, leaves take on a yellow color enriched with some brown and hints of red. Clusters of red fruits also ripen in fall. They’re small, but edible, a nice nibble.
Korean mountainash in auatumn
•Pawpaw (Asimina triloba) bears large leaves that have lost their summer-y, tropical look and have turned a clear yellow. The large fruits, also with tropical aspirations, have been ripe for a few weeks, with flavors akin to vanilla custard, banana, or crème brûlée. Take your pick.
Pawpaw, autumn leaf color
THE GOOD AND THE BAD OF A DRY AUTUMN
Just Like Korea?
The bone dry weather blanketing the Hudson Valley and much of northeastern U.S. does have its saving graces. For one thing, it forces perennial plants to shut down and direct their energies to toughening up for cold weather lurking over the horizon. That’s a good thing — unless, of course, the soil gets dry enough to kill a plant. Deciduous plants have the option, before that happens, to drop their leaves, drastically reducing their water loss and needs.
This dry autumn weather is not unlike that in many parts of Korea. So what? When it comes to cold-hardiness, some plants that survive Korea’s frigid winters typically are done in by our similarly frigid winters. One plant that comes to mind is Asian persimmon (Diospyros kaki). The chances of an Asian persimmon surviving a winter here at my Zone 5 farmden and ripening its fruits are generally not good. Autumn weather like this year’s ups the odds.
Asian & American persimmon, compared
(American persimmons (D. virginiana), on the other hand, easily survive, and varieties such as Szukis and Mohler reliably ripen their fruits here.)
Survival of an Asian persimmon here is very topical to me because I planted one this past spring. I did plant one of the most cold-hardy varieties, Great Wall. This variety is allegedly hardy and will ripen fruit in Zone 5 (at least that’s what Lee Reich wrote in the book Uncommon Fruits for every Garden). This autumn weather should help get it through its first winter here.
Autumn Color Chemistry
This bone dry weather has also made for glorious autumn leaf colors, even more than usual. Did I write, last year, that autumn color was the best ever, and the year before that, and . . . ? The reason for the exquisite color is physiological (the leaves’, not mine).
Leaves can, of course, be green. Other colors also figure in, obscured by the green of chlorophyll until autumn’s cooler weather and shorter days dissolve away the chlorophyll to let these other colors strut their stuff. Autumn’s fiery oranges and yellows, especially prominent in sugar maple, gingko, aspen, hickory, and beech, are from carotenoids. Tannins are another color component that get expressed in autumn; they give oaks their brown color, and enrich the yellow hues of beeches and hickories.
Japanese maple in autumn
Unless an early freeze burns off trees’ leaves while they are still green, those oranges and yellows and browns put on a reliable show every autumn, no matter what the weather.
Not so for the reds and purples of autumn leaves. These colors are expressed by anthocyanins, compounds which are not present or obscured by the green of chlorophyll during the growing season. Anthocyanins develop in autumn, and they need sugars for their development. Sugars come from photosynthesis, whose driving energy is sunlight.
So, less rain and more sunny weather means more photosynthesis, more sugars, and better red and purple color in such plants as blueberry, sourwood, scarlet oak, and sugar maple. A recent spate of warm days and cool nights enhances the whole effect, the warm days spurring photosynthesis and the cool nights slowing respiration to slow “burning” of sugars.
But How About Some Rain?
Much as I revel in day after day of clear, sunny weather and trees alive in color, I’d like a few heavy rains. The water supply of many homes on my road tap into shallow groundwater, the level of which is very low at this point.
Also, my drip irrigation system has been disconnected. The timer, the pressure reducer, and the filter, all of which must greet water as it comes out the spigot, before it enters the main lines, have been brought indoors to be protected from the recent freezing temperatures.
With reduced transpiration from cooler weather, autumn’s usual rainfalls can carry winter radishes, endive, Chinese cabbage, and other cool weather vegetables on a few more weeks until the end of the season. But we need these usual rains.
