Why do I garden?
It’s a question I’ve asked myself many times. I’ve also wondered why so many people do not garden. I can’t speak to that one, but I can certainly share what I enjoy about caring for plants.
Gardening is my art
After many years in the Nevada desert at Burning Man, I have come to learn that everyone is creative. There are no exceptions. Some people are more connected to their art than others, but there are no uncreative people. Gardening gives me an outlet for my creativity.
I look at a space and see where it could be made better, more productive, or nicer to look at. Sometimes that means adding plants and other times it means taking them away. The tabula rasa of a traditional lawn provides the canvas for a massive artichoke plant that disappears each July, a slow and steady pairing of pineapple guava and dwarf pomegranate, each with their spring blossoms and fruitful harvests. A simple backyard of lawn and shrubs can be transformed into a miniature forest of fruit and nut trees, raised beds, and a surprising amount of delicious homegrown food. That is my art. Of course, plants are always growing and changing, so what worked before might not work later on. That’s okay. I believe that the transitory nature of plants is one of the appeals of gardening
In the garden, things are always changing. And sometimes, things don’t work out. Not enough sun, too much water, compacted soil, many things can go wrong but that’s okay, too. There’s always next year. And the year after that. Gardening gives me a chance to learn from my mistakes and try new things.
Gardening is good for me
Gardening is good for me physically and mentally. Working the soil improves mood. So does being outside and surrounded by nature. The bending, lifting, digging and carrying that come with gardening help me stay active and strong. I think the regular reminder of the importance of water to plant life reminds me to stay hydrated, as well. All that vitamin D is good, too, as long as I remember to wear a hat and sunscreen.
Gardening reminds me that things worth having always take time, effort, and patience. And nurturing all those plants feels good, and they never criticize or judge me.
Gardening builds community
Gifts to friends, family, and neighbors from the home garden strengthen those bonds. Talking about gardening successes and failures brings us closer together. Sharing a harvest with those less fortunate eases everyone’s burdens. We are a social, tribal species and we are at our best when we work together toward common goals. The modern world doesn’t offer as many opportunities for that sort of work. Many people spend much of each day looking at a computer screen during the day and a TV screen at night. Gardening helps us stay connected.
Gardening is good for the world
Foods shipped from around the world are costly in many ways, even when they are cheaper than locally grown produce. Plants grown for storage and shipping are often less flavorful than those grown at home. And all the fossil fuels used to ship and transport those fruits and vegetables can’t be good for the air we breathe.
Gardening puts me in control, sort of
To be honest, one of the things I love about gardening is the sense of control it gives me. I can prune a tree into any shape I want. I can plant a row of rainbow-colored flowers if I so choose. I can try every type of radish in existence if I feel so inclined. In a world that grows ever more complicated and confusing with too many features and not enough reliable functionalities, gardening provides me with a sense of being in control, even if that feeling is fleeting and mostly inaccurate.
When I garden, I eat better, sleep better, and feel better. Gardening makes me a better version of myself.
Why do you garden?
While your butternut squash may be stored for a year, strawberries seem to go bad before your very eyes. The way you store your harvest can extend its usefulness and reduce waste.
Peak of freshness
We prefer harvesting and enjoying the fruits of our labor at their peak of freshness and sweetness. This is why my little yellow cherry tomatoes and groundcherries rarely make it into the house. Of course, if we ate everything as soon as it ripened, we wouldn’t have anything left for later, and we’d probably have a stomachache.
Temperature, humidity, and time are the major factors determining freshness when it comes to fruits and vegetables. For any harvest that isn’t eaten right away, there are several things you can do to help maintain flavor and quality.
Location, location, location
Where fruits and vegetables are stored makes a big difference in how long they stay fresh. Some produce belongs on your countertop and some need a dry, cool, dark place. Other fruits and vegetables will stay their best in the crisper drawer, while others are best stored on a refrigerator shelf. We’ll get to the particulars in a moment.
Another freshness factor revolves around the packaging materials used. This has a lot to do with ethylene gas. Ethylene gas is the chemical responsible for ripening, and some fruits produce more than others, while others are very sensitive to the ethylene produced by their neighbors. Apples, bananas, celery, and onions produce a lot of ethylene gas and should be stored away from other fruits and vegetables. Brussels sprouts, broccoli, carrots, green beans, and unripe bananas are very ethylene-sensitive and require protection. You may want to consider designating one crisper drawer for non-ethylene-sensitive produce, such as berries and citrus.
That protection normally comes in the form of plastic bags and reusable containers. One of my new faves when it comes to food storage is beeswax wraps. They are cloth dipped in beeswax. They work better than I expected, and they’re good for the environment. Other containers include paper bags and damp paper towels, depending on the crop. The best way to keep celery fresh is to wrap it in a paper towel and then aluminum foil.
Contrary to what you might expect, it is better if you do not wash produce before storing it. While you certainly want to brush off any soil or debris, it is better to hold off on washing until you are ready to use it. Any residual water sets the stage for rot, so be sure to dry anything you have to wash before storing. You can also extend the life of your cilantro and asparagus by storing them upright in the fridge with the cut ends in water. And remove carrot, radish, and other leafy tops before storing.
People used ice to keep food from going bad for a very long time. The first refrigerator was built in 1834. Crisper drawers were invented one year later. Crisper drawers work by maintaining higher humidity levels than are found in the rest of the refrigerator. Most crisper drawers have closeable vents. When the vent is shut, humidity is higher. This is ideal for your leafy greens. When that vent is open, humidity levels drop. This is better for things like apples and pears. Having the vent open also releases some of the ethylene gas that speeds ripening.
Perishable food is best stored at 37°F to 41°F (3°C to 5°C). These cooler temperatures reduce bacterial growth, thereby slowing rot and decomposition. That’s why refrigerators are such a good idea. But your fridge’s temperatures vary.
Refrigerators have a variety of temperature zones. The front of the top shelf and the meat drawer are the coldest, making them the best places for your eggs, butter, and meat. Your apples will last the longest if stored on the back of the top shelf. The back of the middle shelf is colder than the front, making it a good place for leftovers, while the front of the middle shelf is ideal for melons and beans. The back of the bottom shelf is also a good long-term storage spot, but the front of this shelf is often the warmest part of your fridge, making it ideal for corn, mushrooms, and other cold-sensitive produce. As for the door, higher means warmer, and lower means colder.
Before your harvest starts to shrivel or rot, decide which items need long-term storage. You can slice, blanch, and freeze summer squash. While it tends to break down with cooking, it still makes excellent additions to soups and stews long after the summer sun has left your garden.
Herbs can be dried. And if you end up with too many grapes, you can always hang clusters in a corner of your kitchen, or loose on a steamer until they turn into raisins. It really works.
Canning, drying, and pickling are other long-term storage options. And be sure to check with friends, neighbors, and local charities to see if they could use some of your abundant harvest.
Finally, remember the adage: when in doubt, throw it out. Or add it to the compost pile.
Back when I was young and lacking enough sense to research facts before spouting Old Wives Tales, I used to tell everyone that plants grown around classical music would thrive while their twins, who had been exposed to heavy metal, would wither and die. It’s simply not true.
What is true is far more fascinating.
The sound of silence
We expect plants to be quiet. We’re not surprised when a seedling silently reaches for the sun. [Corn and bamboo can be exceptions to that quiet.] No matter how closely we listen, we cannot hear roots as they reach deep into the soil.
You can track down videos and products that translate these biological processes of plants into sounds and music, but that’s not what we’re talking about here. Today’s topic is about the perception and production of actual sounds.
Responding to sounds
Somehow, without brains, ears, eyes, noses, or nervous systems, plants can perceive, respond to, and communicate visual cues, aromas, gravity, and sounds to other plants. [Did you know that even bacteria communicate with one another through sound vibrations? I didn’t either.]
Many plants respond to the sound of caterpillars and other herbivores feeding by producing protective chemicals. Sound waves have also been shown to increase growth rates within some plants. One study found that sound wave treatments of 125 and 250 Hz increased drought tolerance in rice (Jeong, et al 2008). Detecting certain frequencies can also cause plants to produce growth hormones and protect themselves against microbial pathogens.
The technical term for a plant’s ability to perceive and produce sounds is ‘plant bioacoustics’. They can produce sounds in the 10–240 Hz range, as well as ultrasonic acoustic emissions (UAE) within 20–300 kHz. [We hear sounds in the 20 to 20,000 Hz range.] The sound frequencies plants produce vary, depending on the cause behind the need to communicate. These sounds are produced in the xylem, where water and bubbles of air are moved around. Scientists believe that plants produce sounds by manipulating these bubbles, something my fellow barbershop chorus friends will appreciate. In the plant world, this bubbling is called cavitation.
It ends up that plants really do “scream” when they are damaged. Did you know that tomato plants stressed by drought produce an average of 35 sounds each hour? The same plants produce 11 sounds an hour when stressed by stem damage. And those sounds are different, in both volume and frequency, depending on the cause and the species of the affected plant. Apparently, drought stress is grounds for louder communication.
We know that plants can detect neighboring plants by touch. We also know that they use chemical messaging to orchestrate exchanges with soil microorganisms, trading sugars produced through photosynthesis for specific nutrients. Trees and other plants recognize family members and create social networks.
If you had the proper equipment, and many mammals and insects do, you’d be able to hear those tomato plants from up to 16 feet away. It’s much noisier in my garden than I ever realized. And it’s happening underground, too.
It ends up that it takes very little energy to send sound waves through the soil. When root cells are damaged, plants generate sounds that can be detected by neighboring plants, warning them that danger may be at hand. Plants also produce sounds in the 100–300 Hz range that tell their neighbors where good food and water can be found. Your pea plant roots are actively listening for the sound of water in the soil.
Some insects use sound vibrations to make plants release their pollen. This is called buzz pollination or sonication. You can test this with a tuning fork. Depending on the plant species, sound waves between 40 to 1000 Hz cause flowers to expel small doses of pollen into the air. Other flowers detect the frequencies of certain bee wingbeats and respond by producing nectar that contains more sugar.
We still don’t know how plants perceive sound.
But researchers are currently exploring ways of using sound waves to help plants be more productive while protecting them from insect feeding. One study used sound to increase tomato crops by 13%. Wouldn’t it be nice if we could keep aphids, stink bugs, and weeds away while encouraging bigger, sweeter tomatoes? It just might happen. They are also exploring ways of use sound to reduce ethylene production so that produce is less likely to rot on the way to market.
Can plants hear? They sure can. Does talking to them make them grow better? It just might.
Watching my 4-month-old grandson delight in standing in his new walker, I am reminded that there are no “overnight successes” or “quick fixes” in the real world. Babies take months to learn how to stand and walk. Gardens take years to fulfill their creators’ dreams. Every success we experience, be it in our professions, health and fitness, or in the garden, all happen because of baby steps taken over and over again.
Little steps add up
In 2016, my son and I walked across Spain. That was a one-month, 500-mile walk. It was a wonderful experience, and not just because I got to do it with him. Learning first-hand that taking one step after another, no matter how casually, will eventually add up to something significantly bigger. Your garden and landscape work the same way.
Plans, passions, and reality
Most gardeners, especially those new to gardening, would love to have that picture-perfect, trouble-free, highly productive piece of earth seen in movies and magazines. The reality is, elegant botanical gardens have dozens of professional gardeners and countless volunteers who work every day to create those masterpieces. For us home gardeners, getting help like that is nearly impossible. It’s hard enough to find someone to help dispose of an old couch. [And many of those magazine garden, plant, and flower pictures are photoshopped.]
But you can take your passion for gardening and your ideals and get them moving in the right direction by identifying and performing short-term goals regularly and consistently. Baby steps. Say you want a lush, productive blueberry hedge? Start by identifying the best location. Clear away the weeds. Top-dress the area with aged manure and compost. Protect the space with mulch. Conduct research about the best varieties for your microclimate. Eventually, you will install your blueberry plants. And, after a few years and regular care, your blueberry hedge will become a reality. It won’t happen overnight, but those baby steps can and will get you there.
Little doesn’t mean insignificant
Unless we’re talking about diamonds (and babies), small things are often seen as less-than. The truth is, it’s the little things, done repeatedly, that create practically every success. None of us is perfectly fit two months after our New Year's’ resolutions are made. But try adding squats while your microwave is running, or 10 little jumping jacks each time you use the bathroom and see just how much these tiny acts of fitness add up over time. The trick is making these baby steps easy enough to do that there’s no desire to avoid them.
Trying to rid your yard of every weed in a single day is a Herculean task that may make you throw up your hands in despair and quit gardening altogether. Weeding your garden on a regular rotation will never get rid of all your weeds (nothing can do that short of Agent Oranging the neighborhood). What it will do is ensure that you are checking on each area of your garden regularly and removing most of the weeds. Over time, the weeds will be less of a problem and you won’t experience burn-out.
“Natural is better.”
“Natural is safer.”
These words are easy to say and they sound good, but they can be very wrong. You can’t assume that just because something is natural means it is safe.
Natural pesticides can be just as deadly as chemical concoctions. Mushrooms may be natural and organic, but some of them can kill you. Even the seeds and skins of some of our common foods can cause illness or death when eaten to excess.
Chemical warfare may be banned in the human world (and with good reason), but plants regularly employ chemicals to defend against insect and herbivore feeding and in response the injury and environmental stresses. Some of the chemicals they use can hurt us, too.
Today we are looking at some of the natural toxins growing in our gardens and lurking in our crisper drawers.
Apples, barley, and stone fruits
The seeds of apples and the pits of stone fruits contain cyanogenic glycoside. When plants feel they are being attacked, they remove the sugar molecule from these compounds, converting them into hydrogen cyanide. Barley, flax, and sorghum do the same thing. Raw cassava (tapioca) and bamboo shoots also contain hydrogen cyanide. Hydrogen cyanide is a blood agent that halts cellular respiration. It will kill you if you eat too much.
Cereals, dried fruits, nuts, and spices
Have you ever nibbled raw cookie dough? I have. And I’ve heard that I shouldn’t. I always thought that was because of the raw eggs, but it ends up that bird poop residue is the real reason. Another problem with this food group is more serious than a short-term belly ache. Cereals, dried fruits, nuts, and spices can harbor certain molds, called mycotoxins, that can cause severe illness. Long-term exposure, while rare, can cause immune deficiency and some cancers.
Herbs, honey, and sunflowers
Herbs, honey, and members of the sunflower family all contain something called pyrrolizidine alkaloids. Milk, eggs, and cereal grains also contain these chemicals, which are known to cause liver damage. Borage leaf, coltsfoot, and comfrey contain particularly high levels of this natural toxin. Remember, the damage is in the dose.
Raw kidney beans are dangerous. There, I’ve said it. I didn’t even know it until I wrote this post. It ends up that all raw beans contain chemicals called lectins. Lectins can cause severe digestive upset. Raw kidney beans contain more lectins than other beans. Low and slow cooking may be great for that pot roast, but those temperatures may not be high enough to destroy lectins, so be sure to crank up the heat for at least part of your bean cooking regime.
Some people can forage safely for mushrooms and others cannot. I’m in the latter group. Because some mushroom species can kill you, I opt for the grocery store. Unlike some other toxins, those found in mushrooms are not destroyed by cooking.
Parsnips have a chemical arsenal of their own. When they feel threatened, they produce chemicals known as furocoumarins. These chemicals can cause stomachache and skin rashes. To avoid these problems, peel your parsnips and discard any damaged bits. And pour the cooking water down the drain, rather than adding it to your soup stock. By the way, carrots, parsley, celery root, and citrus contain furocoumarins, too.
We’ve all seen it. Just under the brown skin of a potato, you see green. These green areas occur when a potato is sprouting and when the plant feels stressed. Along with that green tinge are chemicals known as glycoalkaloids. All members of the nightshade family contain these chemicals. Mostly found in the leaves, glycoalkaloids can give you a bad belly ache. They can also kill you. Be sure to remove any green or damaged bits before cooking your potatoes. If they taste bitter, toss them in the trash.
I’m only including rhubarb because everyone seems to have heard how toxic their leaves are. They do contain oxalic acid. It’s also true that oxalic acid can cause cramps and interfere with breathing and heartbeats. It can also cause coma and death, but you’d have to eat a profound amount of rhubarb leaves to have a problem.
Sweet potatoes can produce toxins used in defense against injury, insect feeding, and other stresses. One of these toxins, ipomeamarone, makes your sweet potatoes taste bitter. It can also kill you, so don’t eat bitter-tasting sweet potatoes and always cut out and discard damaged areas.
Bitter-tasting zucchinis may contain chemicals known as cucurbitacins. Cucurbitacins cause something called “toxic squash syndrome”. Symptoms of this condition include severe digestive upset followed by hair loss, weeks after the fact. How weird is that?
With all these potential toxins in our food, what’s a gardener to do?
First of all, recognize that you would have to eat an awful lot of most of these plants to cause any real harm. Second, keeping your plants healthy with proper fertilizing, irrigation, and pest and disease control reduces their need for self-defense.
You can protect yourself and your family by discarding any produce that is badly damaged or moldy and cooking your food properly.
The plants you see on TV and in magazines always look amazing and perfect and it’s not real. Real plants rarely have perfectly rounded shapes or masses of fruit and flowers wherever you look. In real life, plants often have one side that looks and performs better. Things are uneven. The movie star plants, like their human counterparts, are often airbrushed and staged by professionals.
Imperfections are perfectly normal in the plant (and human) world. Failing to thrive is something else altogether.
Failure to thrive is not a disease. It is a symptom. And most of us have seen it happen in our gardens or on our patios. Scraggly stems, too few leaves, little or no fruit or flowers, and overall weakness are all signs of failing to thrive. In many cases, you can correct the problem and help your plant return to good health. Failure to thrive can be caused by environmental conditions or biological characteristics.
Biological causes of failure to thrive
Some plants are born weak. This can be because the seed was old, or germination occurred too early in the season while temperatures were too cold. In both cases, the seedling had to put out more energy than it could afford early in its growth and may never recover fully. Other biologic causes of failure to thrive include bacterial, fungal, and viral diseases, girdling roots,
You can prevent many problems with these tips:
Environmental causes behind failure to thrive
Plants cannot leave their environment, so they have to deal with wherever they are. There are several environmental conditions that keep plants from thriving:
In some cases, drastic measures are called for. After all your other treatments and corrections have failed, it is time to dig up or unpot your plants and get to the root of the problem. You will want to work over a tarp or very large container. Either dig up your problem plant or remove it from its container. Then, shake the soil from the roots and wash them. Root washing is an excellent way to see what, exactly, has been going on underground. Prune out any damaged, mushy, broken, or infected roots. Set the root ball in a bucket of water and examine the soil. Look for signs of insect pupae, grubs, root maggots, root weevils, wireworms, cutworms, and other soil-dwelling pests.
Smell the soil. Does it smell rich and earthy? Or it smell funky, like old gym socks? Healthy soil contains earthworms and zillions of microorganisms and it smells like good earth. Less than ideal soil smells like something went bad. If that’s the case, toss it out and give your patient some fresh potting soil. Until your plant is thriving, if possible, it is best to keep it in a container during its recovery.
Do you have a plant that’s failing to thrive? Tell us about it in the comment and let’s see if we can help it get better!
We have all become more familiar with pandemics than any of us would like to be, thanks to Covid-19.
Global agriculture or local gardens
Whether we are talking about pandemics in the global food supply or epidemics in neighborhood home gardens, the spread of disease affects everyone. Dealing with plant diseases takes time, costs money, and reduces crop size. Preventing these problems is a lot easier than dealing with the consequences. Plant pandemics are increasing in both frequency and effect because of rising temperatures, global trade, pathogen spillover, and evolution.
Cold weather slows viruses and kills off many vectors. As global temperatures continue to rise, viruses and other pathogens are finding life a lot easier in new regions. Along with changing temperatures, we are also seeing changes in storm patterns, drought occurrence, and other conditions that weaken plants and favor disease. Monitoring plants regularly for signs of trouble can help nip those problems in the bud.
Travel along the Silk Road 2,000 years ago brought untold wealth and riches to the far reaches of the globe. It also furthered the development of science, literature, and medicine. And it increased the spread of diseases, such as intestinal parasites, the Black Death (bubonic plague), smallpox, and STDs (sexually transmitted diseases). Modern global trade has had similar effects on our gardens.
A single pest, virus, bacteria, or other plant problem can catch a ride on a shipment of produce, furniture, or dollar store doo-dad bound for your neighborhood. Before you know it, you’re up against something new. Some of those new problems can be devastating. And many countries are forced, through poverty, to ignore trade restrictions regarding pests, diseases, and chemical use. As a result, low price produce often comes at a higher long-term cost.
In some cases, the carriers of diseases develop a taste for something new. This is becoming more common as new varieties of plants are developed to tolerate non-traditional temperature ranges. As crops are grown in new areas, so, too, will the pests and diseases that favor those crops. Once established, those pests and diseases often develop a taste for the local flora, spilling over into these local crops. Also, where one disease may be tolerable, being put in combination with another disease can turn the tables for the worse.
One thing I learned while studying for the Master Gardener’s exam was that pathogens push plants to develop better defenses. It’s one of Nietzsche’s “What doesn’t kill you makes you stronger” situations. Plants that die are removed from the gene pool, leaving more resistant specimens to reproduce. Of course, we don’t want anything to kill our herbs, tomatoes, or fruit trees. We want them to grow and thrive and produce.
Like everything else, diseases evolve. A simple mutation can change everything. And microorganisms evolve a lot faster than plants (or us). In some cases, a disease can have a mild effect for several years and suddenly mutate and become devastating.
Common plant epidemics
Monoculture and the increasing demand for food have led to the rise of several plant pandemics. These are some of the most common:
These are only a few of the plant pandemics currently happening. Like Covid-19, many of the carriers of these diseases can be asymptomatic, which means they look perfectly healthy. But adding them to your landscape can cause years of headaches and work.
You can reduce the risk of plant diseases causing problems in your garden by monitoring insect movements in your region. Many insects carry diseases. If you know the insects are headed your way, you can be prepared. The Big Bug Hunt is a good tool I’ve used to see what’s coming. I’m sure there are others, but the Big Bug Hunt has the added benefit of providing photos and identification tools.
These other tips can help break the chain of plant epidemics and pandemics:
Finally, learn more about the relationships between the plants you are growing and the pests that threaten them. Did you know that green peach aphids hide out in winter on stone fruit trees and can then carry potato leafroll viruses to your potatoes in spring? Now you know.
Remember, the more you know, the better equipped you are to halt the spread of these and other plant diseases. We may not be able to vaccinate plants to protect them, but there are other things we can do.
There are many reasons to grow your own food: flavor and freshness usually top the list. Pesticides are another reason.
Pros and cons of pesticides
Pesticides can make quick work of pests that damage our plants or carry plant diseases. They can also spread to unintended locations, contaminate groundwater, and interfere with the delicate balance of countless, often beneficial, life forms. How much is too much? How can we know these chemicals were used responsibly by growers halfway around the world? It’s tricky.
Fresh produce is supposed to be good for us. We are urged to eat at least five servings of fresh fruit and vegetables each day. But can all the pesticides and other chemicals used in commercial agriculture be washed off? The answer is no. In many cases, pesticides are systemic, which means they are absorbed by plants. How many otherwise healthy fruits and veggies contain high levels of pesticides? The list may surprise you.
Environmental Working Group
Each year, the Environmental Working Group (EWG) publishes a list of the twelve U.S. crops most contaminated with pesticides. The ‘Dirty Dozen’ are often sprayed with chemicals banned in the European Union. Did you know that peppers are sprayed with 115 different pesticides? Or, that spinach often contains twice as much pesticide residue, by weight, than any other crop tested by the EWG? According to the EWG’s 2021 Dirty Dozen, these crops are the worst when it comes to pesticides:
Personally, I like using this annual list as a guide to what I will grow at home. Store-bought strawberries rarely taste as good as they look anyway, so homegrown or certified organic are the only ways to go for me. Spinach, kale, collards, and mustard greens are easy to grow and can be allowed to go seed, providing years of edible good health.
While fruit trees take time to get started, they are a good investment in your landscape and many of them can be grown in large containers. Tomatoes and peppers are regulars on my list of plants to grow, though celery has given me some trouble.
I’m not completely opposed to pesticide use. It certainly has its place. There are billions of mouths to feed, and pests feel no remorse about wiping out crops. Instead of applying broad-spectrum pesticides, we can use hand-picking, sticky barriers, and other cultural practices to manage many pests.
The good news
On the flip side, the EWG also publishes a list of produce available in stores that score lowest on residual pesticides. This annual list is called the Green Fifteen, and here is the 2021 list:
My three most pest-free plants have been almonds, apples, and bush beans. My three most pest-prone plants have been Swiss chard, tomatoes, and pole beans, always with aphids. Which three plants cause you the most trouble, pest-wise? Which three need the least amount of help battling pests? Let us know in the comments.
Moving from a house in San Jose, California, to an apartment in downtown Seattle, Washington brought many changes to this gardener’s life. Raised beds, fruit and nut trees, and many of my larger plants had to be left behind. Potted herbs came along, and they seem to be enjoying balcony life. But temperatures are dropping. It was time to learn more about my new USDA Hardiness Zone. What I learned surprised me.
It’s not unusual to discover that a new location has a different set of conditions related to gardening. The weather is certainly different. I went from a scorching hot, drought-prone climate to cool, overcast skies and a lot more greenery. The soil situation is very different. My heavy clay made better with wood chips must now be replaced with bagged potting soil. Instead of a compost pile for plant food, I will be using store-bought fertilizers. I’m sure there will be new pests and diseases to contend with, but I haven’t run into them yet. The biggest surprise for me, and one that affects all gardeners, was the change in Hardiness Zone.
USDA Hardiness Zones
The USDA Hardiness Zone map divides the U.S. into zones based on average winter low temperatures. Understanding these zones helps gardeners select plants that will thrive. The 1990 map, which I have been using for years, told me that my San Jose garden was in zone 8. The more recent 2012 map says it’s in zone 9. The same shift is true of Seattle. The older map puts Seattle in zone 7, while the newer map says 8. More on that in a moment.
Each zone is divided into 10°F increments. That means temperatures, as far as gardening goes, have risen profoundly in recent years. Before you panic, you need to know that some of those changes are due to better science and improved measurements. But temperatures are changing. Temperatures are critical in determining what will grow well and what will struggle in your garden.
Global zone issues
Back to Seattle. This past summer, there was a week with temperatures around 110°F. For anyone familiar with Seattle weather, you will know that this is unheard of. As we drove along I-5 to our new home, we could see the damage caused by those temperatures. Trees exposed to the afternoon sun were badly bronzed. Extensive sunburn damage can be seen everywhere. These plants were not able to protect themselves against the unusual heat. Many trees will die as a result.
This type of damage is occurring in food production around the world, too. An article published by Science Daily tells us that fully one-third of the world’s food crops are at risk because of climate change. Master Gardeners, farmers, and researchers around the world are trying to find out what works and what doesn’t under these new conditions.
What changes, if any, have you seen in your garden over the past few years? Have temperature changes altered what and how you grow?
How does one go from an expansive suburban yard with raised beds, bees, and hens in California to a 2-bedroom apartment in downtown Seattle?
It was difficult to walk away from an imminent harvest of almonds, apples, figs, squash, and tomatoes, but family is more important, and it was time. I did manage to can some tomatoes before packing day, however!
Sounds of nature
I do miss the sounds of the hens and the sight of bees busily going to and fro, but Seattle isn’t without its’ sights and sounds of nature. Instead of egg songs, I hear the cry of seagulls and cawing crows. Pigeons are common, but not on my 7th-floor balcony. I have seen various bees and mayflies. And I am not without a garden.
Choosing apartment plants
Choosing which plants to bring and which to leave behind took some thought. Aside from physically moving the plants, I had to decide how much space to dedicate to them. Herbs were my first choice. The chives, oregano, peppermint, stevia, summer savory, and thyme came with me. I transplanted all my saffron crocus bulbs into various pots of succulents. And I brought my strawberry pot planted with groundcherries. Next year, I may make room for some tomatoes or squash. I have to finish unpacking first.
Apartment gardening poses some unique challenges and opportunities. As always, light and temperature are critical factors. Living in a corner unit in a southwest-facing building, we get plenty of light. Since we have a balcony, I can give my plants access to pollinators.
Water conservation isn’t the same in Seattle as in California, but I still use the dregs from my dogs’ water bowl to water my plants. I figure the bits of dog food and who knows what else might help feed my apartment plants. Without a compost pile, I’ll have to rethink how I feed them. (The plants, not the dogs.)
If you’ve gardened in an apartment, what advice do you have for me, the New Kid on the block?
Kate Russell, writer, gardener, and so much more.