Droopy Leaves on a Hot Day. Water...or Not?

Do your plants have droopy leaves on a hot afternoon? 

 

There are two schools of thought.

One school says plants conserve moisture on a hot afternoon by allowing their leaves to sag.

The other school says: don't believe them. Drooping leaves are usually indicative of a lack of water from the root zone. "Large, thin leaves, common in many of ornamental, annual and vegetable species, do not conserve water," writes Washington State University Horticulture Professor Linda Chalker-Scott. "Tomatoes, zucchini and black-eyed Susans...are not water conservers. Chronic wilting of these and others can eventually cause leaf tip and margin necrosis (or tissue death). It also reduces growth, so that your yield of tomatoes, zucchini and black-eyed Susans will be decreased."
She advises applying a layer of mulch around those plants to help conserve water.

Also, check the moisture at the root level before watering.
To determine the amount of water at the root level:

• A day or two after watering, dig down 8 to 10 inches with a trowel or small shovel, near the drip line (outer canopy) of the plant. Doing this in two or three spots would be more helpful.

• At that depth, grab a handful of the soil. Squeeze that handful. If it is muddy and watery, reduce your watering for plants that require regular (but not frequent) irrigation. If it is so dry you cannot form a clod in your hand (it turns to dust instead), increase your watering (for those plants that require moderate amounts of water).

• If you can form a dirt clod in your hand, yet break it apart with a little effort, that is probably the correct soil moisture for your plant.

• Steve Zien, owner of the Citrus Heights-based organic landscaping consulting service, Living Resources, recommends the use of a soil sampling tube to determine the moisture at root level. "Just press the tube down six to eight inches into the soil after you are done watering," says Zien. "When you bring it back up, the open slot along the side of the tube will let you see if the soil at that depth is wet, moist or dry. Adjust your watering time so that the soil sample is moist, not too wet or dry."

• An easier, but more unreliable way to measure the water content of the soil: purchase an inexpensive (under $10) moisture meter, available at most nurseries. Test its accuracy by putting its probe into a glass of water. If the probe does not read "wet", choose another. Expect it to function for only a year or so.

• Battery operated moisture meter probes may set you back a few more dollars, but in my experience - with proper care (clean them after each use, don't leave them outdoors) - they will last many years.

• Extended, infrequent, slowly applied irrigation is the most efficient watering method. Soaker dripline or drip irrigation systems work best. Here in the Central Valley, foothills and Bay Area, run them for 3 to 6 hours at a time, twice a week, in the summer. This is only a guideline to get you started. Adjust that timing to your particular soil type and plants.

• And, don't forget: add more drip emitters and drip lines as the plant grows, especially for trees and shrubs. Make sure to get water to the outer canopy of the plant (and beyond) where the roots travel.

Improper watering is the number one cause of plant failure. Knowing how wet the soil is at the root level can help you keep your plants healthy.

Keep in mind: different plants have different watering needs. Learn those needs, then group plants together with similar watering requirements when designing your landscape. The Sunset Western Garden Book is a good source for that information.

Signs of not enough water at the root level of plants:
Wilted leaves in the morning. Wilted leaves in the afternoon.
Wilted leaves in the evening.
Red-brown margins of leaves.
Premature fall color of leaves.
Growth reduction.
Leaf drop.
Branch dieback.

Signs of too much water (also called aeration deficit) at the root level of plants:
The soil has a foul smell, like rotten eggs.
Soil is a blue-gray color.
Yellowing, wilting and/or dropping of leaves.
Limited new growth.
Small, corky outgrowths on the undersides of leaves.

Be warned, though: sometimes, symptoms of overwatering and underwatering can be the same (such as leaf wilting). And, symptoms of soil water problems may actually be another problem...that was caused by your watering regimen! Root rots, for example, thrive in saturated soils.

Frequent, light watering leads to shallow rooting, increasing the chances of plant problems.

How much water does your lawn need?

Some tips from the UC Integrated Pest Management Website:


• Avoid planting turf species that require frequent watering, such as bluegrass or ryegrass.
• Design your landscape to minimize water runoff onto hard surfaces and into storm drains.
• To reduce runoff, install non-irrigated buffer areas, which include water-efficient plants or permeable features, next to sidewalks or on slopes.
• Aerate heavy or compacted soils, so water can easily move down to reach grass roots.
• Install an irrigation system that you can adjust to properly water areas of your landscape that have different requirements.
• Water only when your lawn needs it.
• Water requirements vary according to turf species, location, and month of the year.
• Most lawns need water when the top 2 inches of soil have dried out.
• Shady and sunny areas and different soil types will have different water requirements.
• Deeper, less frequent watering is best for most lawns. Water only 2 to 3 times a week.
• Make sure your sprinkler system isn’t producing runoff, especially on slopes. If you see runoff, use shorter watering times and repeat the cycle to allow time for the water to move into the soil.
• Water early in the morning when evaporation and wind are minimal.
• Adjust your watering schedule seasonally, and shut off your irrigation system during rainy weather.

A Great Year for Tomato Blossom End Rot

2010 is shaping up as a great year for backyard tomatoes...with blossom end rot. During tomato planting time here (late April-early May), the weather was cooler than normal, and much wetter. That pattern continued through the rest of May; our typical valley heat didn't arrive until late June. Tomatoes took their time. There are still gardeners waiting patiently for their beefsteaks and other main season tomatoes to turn red (true here, too).

For those tomatoes that are ripening, many gardeners are now contending with a major outbreak of blossom end rot. Tomato plants with blossom end rot show small, light brown spots at the blossom end of immature fruit. The affected area gradually expands into a sunken, leathery, brown or black lesion as the fruit ripens. Hard, brown areas may develop inside the fruit, either with or without external symptoms.
 
According to the tomato heads at UC Davis, the problem occurs when tomato plants have grown rapidly during the early part of the season and are then subjected to hot dry weather when the fruits are in an early stage of development. You know, sort of like the weather in late June.



Some tomato varieties are more susceptible to blossom end rot, including plum and pear-shaped tomatoes.

Although the weather and the variety of tomato sets the table for blossom end rot, many other factors are major contributors. 

Mainly, you. 

Yes, blossom end rot is related to a deficiency of calcium in the tomato fruit, but that occurs for several reasons that can be classified as “operator error”. Among them:

• Too much water.
• Not enough water.
• Irregular soil moisture, brought on by, um, irregular watering.
• Too much nitrogen fertilizer.
• Planting in soil whose pH is not conducive to calcium uptake by the plant (below 5.5 or above 8).
• Planting in poorly drained soil.
• Planting in too sandy of a soil.
• Improper planting (spreading out the roots when planting helps the plant adapt better)
• Excessive levels of potassium.
• Excessive pruning.
• Lack of an organic mulch. (organic mulch helps moderate soil temperature and moisture fluctuations)
• Using a plastic mulch which might raise the soil temperature too high.
• Planting certain tomato varieties that are prone to blossom end rot, especially narrow paste tomatoes.

The most critical mistake gardeners contribute to blossom end rot: not monitoring the soil moisture at root level.  
Although the surface of the soil may appear dry, the moisture level a few inches down may be correct. If more water is added at that time, then the soil becomes so moist that oxygen is unavailable for root growth and calcium will not be absorbed. Why? Excess soil moisture, combined with a lack of soil oxygen, speeds the formation of Casparian strips, deposits on the young root tips that have become suberized, waxy substances through which water and nutrients cannot move.

If the soil in the root zone is too dry, then the calcium will not move to the roots. Dry soil and hot, dry, windy days create a water and calcium deficiency in the plant. Even a brief soil water deficit can disrupt water and nutrient flow in the plant. If this occurs while fruits are developing, blossom-end rot will likely develop.

Automatic irrigation timers may save you time, but it may not save your tomato plants from blossom end rot. Watering schedules need to be adjusted to the weather to maintain even soil moisture.

And when it comes to garden problems, many folks think the answer is, “buy something and put it on the plant”.  

Buying stuff won’t necessarily end blossom end rot.
 
Among the “store-bought remedies” that are frequently suggested that have been proven to be of little or no value to ending blossom end rot:

• Applying a foliar calcium spray to the tomato leaves. In University tests, studies showed that calcium does not move from leaves to the fruits. Thus, foliar sprays of calcium won't correct blossom end rot. Tomato fruits do not have openings in the epidermis (skin) through which calcium can be absorbed. Contrary to past belief, the direct application of calcium as a spray is ineffective.

• Adding a calcium supplement, such as gypsum, limestone, or eggshells. Perhaps. But it depends on your soil. 

• Limestone can raise the pH in soil to a range more favorable to tomatoes and calcium uptake, around 7.0. But if your soil is already in that range, adding limestone may raise the pH to the point where calcium uptake is again, slowed.

• Adding crushed eggshells to the soil well before transplanting time may help overcome any calcium deficiency already in the soil. But it ain’t gonna help your tomatoes if they are already in the ground.

• And gypsum (calcium sulfate)? Dr. Linda Chalker Scott of Washington State University's Horticulture Department, and author of the award winning book, “The Informed Gardener”, says home gardeners are wasting their money. “Most urban soils are not improved by adding gypsum,” she states in her on-line newsletter, “Horticultural Myths”. “Adding gypsum to sandy or non-salty soils is a waste of money, natural resources, and can have negative impacts on on plant, soil and ecosystem health.” However, she points out, gypsum can improve the structure and fertility of heavy clay soils; but consider another undesirable result to adding gypsum: Gypsum can have negative effects on mycorrhizal inoculation of roots.

Maintaining the proper balance of potassium, phosphorus and other soil nutrients and avoiding excessive growth due to over-fertilization with nitrogen is recommended. Some university studies, including a study from Cornell University, suggest that a low nitrogen, high phosphorus, low potassium fertilizer (such as a 4-12-4) may help control blossom end rot.

Excess levels of ammonium (NH4-N), magnesium, potassium and sodium have been reported to reduce the availability of calcium, according to the journal "Agronomy". That same study reported that the use of nitrate nitrogen (NO3) might stimulate Calcium uptake.

Their best advice: A soil test should be conducted to help determine what needs to be added and what should not be added to your garden soil.
 

And, use a moisture meter. 

 

The Right Way to Water Your Lawn and Garden

Improper watering is the number one cause of plant failure. Knowing how wet the soil is at the root level can help you keep your plants healthy. 

Keep in mind: different plants have different watering needs. Learn those needs, then group plants together with similar watering requirements. The Sunset Western Garden Book is a good source for that information.

Signs of not enough water at the root level of plants: 
Wilted leaves in the morning.
Red-brown margins of leaves.
Premature fall color of leaves.
Growth reduction.
Leaf drop.
Branch dieback.

Signs of too much water (also called aeration deficit) at the root level of plants:
The soil has a foul smell, like rotten eggs.
Soil is a blue-gray color.
Yellowing, wilting and/or dropping of leaves.
Limited new growth.
Small, corky outgrowths on the undersides of leaves.


Be warned, though: sometimes, symptoms of overwatering and underwatering can be the same (such as leaf wilting). And, symptoms of soil water problems may actually be another problem...that was caused by the watering problem! Root rots, for example, thrive in saturated soils.


Frequent, light watering leads to shallow rooting, increasing the chances of plant problems.

To determine the amount of water at the root level:

• A day or two after watering, dig down 8 to 10  inches with a trowel or small shovel, near the drip line (outer canopy) of the plant. Doing this in two or three spots would be more helpful.

• At that depth, grab a handful of the soil. Squeeze that handful. If it is muddy and watery, reduce your watering for plants that require regular (but not frequent) irrigation. If it is so dry you cannot form a clod in your hand (it turns to dust instead), increase your watering (for those plants that require moderate amounts of water).

• If you can form a dirt clod in your hand, yet break it apart with a little effort, that is probably the correct soil moisture for your plant.

• Steve Zien, owner of the Citrus Heights-based organic landscaping consulting service, Living Resources, recommends the use of a soil sampling tube to determine the moisture at root level. "Just press the tube down six to eight inches into the soil after you are done watering," says Zien. "When you bring it back up, the open slot along the side of the tube will let you see if the soil at that depth is wet, moist or dry. Adjust your watering time so that the soil sample is moist, not too wet or dry."

• An easier, but more unreliable way to measure the water content of the soil: purchase an inexpensive (under $10) moisture meter. Test its accuracy by putting its probe into a glass of water. If the probe does not read "wet", choose another. Expect it to function for only a year or so.

• Battery operated moisture meter probes may set you back a few more dollars, but in my experience - with proper care (clean them after each use, don't leave them outdoors) - they will last many years.

 

• Extended, infrequent, slowly applied irrigation is the most efficient watering method. Soaker hoses or drip irrigation systems work best. Here in the Central Valley, foothills, and Bay Area, run them for 3 to 6 hours at a time, twice a week, in the summer. This is only a guideline to get you started. Adjust that timing to your particular soil type and plants.

• And, don't forget: add more drip emitters and drip lines as the plant grows, especially for trees and shrubs. Make sure to get water to the outer canopy of the plant (and beyond) where the roots travel.

How much water does your lawn need? 

Some tips from the UC Integrated Pest Management Website:


• Avoid planting turf species that require frequent watering, such as bluegrass or ryegrass.
• Design your landscape to minimize water runoff onto hard surfaces and into storm drains.
• To reduce runoff, install non-irrigated buffer areas, which include water-efficient plants or permeable features, next to sidewalks or on slopes.
• Aerate heavy or compacted soils, so water can easily move down to reach grass roots.
• Install an irrigation system that you can adjust to properly water areas of your landscape that have different requirements.
• Water only when your lawn needs it.
• Water requirements vary according to turf species, location, and month of the year.
• Most lawns need water when the top 2 inches of soil have dried out.
• Shady and sunny areas and different soil types will have different water requirements.
• Deeper, less frequent watering is best for most lawns. Water only 2 to 3 times a week.
• Make sure your sprinkler system isn’t producing runoff, especially on slopes. If you see runoff, use shorter watering times and repeat the cycle to allow time for the water to move into the soil.
• Water early in the morning when evaporation and wind are minimal.
• Adjust your watering schedule seasonally, and shut off your irrigation system during rainy weather.


And, the video: How Much Water Do Your Plants Need?