Table of Contents

Boron (BO3-3 )

Boron in the Soil

Total soil boron (B) content can range from around 20 lb./acre to over 200 lb./acre (10 to 100+ ppm). However, only a small fraction of this amount is available to the crop. Much of the total soil B is present as a component of Tourmaline, a highly insoluble mineral. Most of the remainder is in secondary, moderately insoluble minerals. The forms of B that are available to plants include inorganic borate complexes of Ca, Mg, and Na, plus various organic compounds formed from plant and microbe decomposition.

Functions

Boron is essential for many plant functions. Some of them are

Factors Affecting Availability

High Response Crops

While boron is an essential element for all plants, the following crops have been found to be especially responsive: alfalfa, apples, broccoli, brussel sprouts, cabbage, carrots, cauliflower, celery, citrus, clover, conifers, corn, lettuce, onions, peaches, peanuts, pears, sunflower, sweet corn, sweetpotato, sugarbeets, table beets, tomato, and turnip.

Deficiency Symptoms

Symptoms vary between crop species, but generally occur in the growing points or flower and fruiting parts of the plant. Young leaves will often show a general chlorosis, as is the case with alfalfa. The upper leaves of clover may show a reddish color. In both crops, the terminal internodes shorten, and the new growth may appear distorted. Cotton may exhibit a rosette growth due to shortened terminal growth. Corn may not show any leaf symptoms, but a B deficiency can cause the failure of the pollen tube to function properly. This results in kernel embryos not being pollinated, causing the ears to have missing kernels.

BORON DEFICIENCY SYMPTOMS
Crop Visible Symptoms
Alfalfa Death of terminal bud, rosetting, yellow top, little flowering and poor pod set.
Almond Flowers fall and nuts abort or are gummy.
Apple Pitting, skin discolored, cracking and corking.
Apricot Twigs die back and fruit fails to set.
Beet (Table) External spotting, cracking and canker.
Broccoli Hollow stems, internal discoloration, brown curds.
Cabbage Hollow stem, watery areas, heads hollow, plants stunted.
Canola Leaves distorted. Blank or partially filled seed heads.
Carrot Reddening of leaves and root splitting.
Cauliflower Leaves curled, hollow stem, curds dwarfed, brown.
Celery Stem cracked and striped brown, heart blackened.
Citrus Thickened ring, gum pockets near axis, discolored patches.
Clover Poor stands, growth and color. Reduced flowering and seed set. Leaves cupped and shriveled, and become brittle.
Corn (all) Short, bent cobs, barren ears, blank stalks, poor kernel development, elongated, watery or transparent stripes later becoming white on newly formed leaves, dead growing points.
Cotton Shedding of squares and young bolls, ruptures at base of squares, dark fluid exuding from ruptures, internal discoloration at base of boll, half-opened bolls, green leaves until frost.
Dry Bean Interveinal chlorosis of leaves. Bushy appearance.
Grape “Hen & Chick” symptom, dead main shoots.
Lettuce Stunted growth, discoloration of leaves, brittle.
Peanut Dark, hollow area in center of nut, called "hollow heart."
Pear Blossom blast, pitting, internal corking and bark cankers.
Pistachio Fruit set decreases, and blanks and non-split nuts increase.
Potatoes Plants have a bushy appearance. Leaves thicken and margins curl upward.
Radish Pale roots, brittle stems, watery flesh and flecked coloration.
Rutabaga Roots are tough, fibrous and bitter. Upon cutting, they have soft, watery areas, often called "brown-heart."
Sorghum Leaves are narrow and have a gray appearance with watery, transparent stripes. Seed heads are not filled.
Soybean Yellow leaves, chlorotic between veins, downward curling of leaf tips, crinkling of leaves, dieback of tips, no flowering, roots stunted.
Strawberry Pale chlorotic skin of fruit, cracking and dieback.
Sugar Beet Yellowing or drying of leaves, cracking of leaf midrib, brown discoloration of internal tissue, rotting of crown.
Sunflower Leaves appear wilted. Abnormal head fall due to weak peduncles.
Tobacco Leaf puckering and deformed buds.
Tomato Thickened leaves, brittle leaves, fruit fails to set.
Turnip Hollow center or brown heart, watery areas.
Walnut Dieback from shoot tips, leaf fall.
Wheat Distorted heads and chlorosis of leaves.

Toxicity

The range between a correct application rate, and a toxic one is not large, so it is relatively easy to apply too much boron. Because of this, it is very important to get uniform mixing and application, especially when applying in concentrated bands or foliar. Because of the slow transport of B in the plant, symptoms generally appear on the older leaves and consist of margin or leaf tip chlorosis, browning of leaf tips, which is quickly followed by the death of the affected tissue or defoliation. The critical plant level for toxicity can range from 10 - 50 ppm in sensitive crops such as small grains and garden beans, to as high as 200 ppm in tolerant crops such as sugar beets, rutabaga, cucumbers, and conifers.

Since B is a mobile element in the soil, excess B from over-application can be corrected over time with leaching. Applications of lime and sources of soluble Ca have been shown to be effective in reducing B toxicity, and it has been reported that additional N application can be of benefit.

Using Boron in a Fertility Program

Recommended rates of B
Method Pounds of B/Ac
Broadcast 1.0 to 3.0 lb./Ac
In-row Not Recommended
Foliar 0.10 to 0.25 lb./Ac

Broadcasting is the preferred application method for several reasons.

The impregnation of dry fertilizer blends with dissolved Solubor has been successfully used to assure uniform distribution.

If visible B deficiency symptoms appear, significant yield reductions have already occurred. Use plant analysis to identify and correct nutrient shortages before they cause serious yield losses. Also remember, as growers strive for those exceptional yields, the need for B increases.

Some Boron Fertilizer Sources
Product Chemical Formula Approximate B %
Borax Na2B4O7 .10H2O 11%
Boric Acid H3BO3 17%
Sodium tetraborate Na2B4O7 .(0-10)H2O 10-20%
Solubor Na2B10O16 .0H2O 20%