In this second post leading up to transplanting orchids, I thought I’d cover a less commonly recognized problem for orchids—water quality. I, personally, never put too much thought into this topic until recently. If you’re like me, you probably think that if the water is good enough for you to drink, it’s good enough for the orchids, too. Well, that’s not always the case. In this post, I’ll cover a couple things you might want to check and keep in mind when watering your orchids.
This table is just a quick overview of the topics covered in this post. For a more detailed discussion, read on!
1. Public vs Private Water Systems
2. Water Decontamination
Public and private water systems have varying methods of purifying and decontaminating water before human use. For drinking water, some methods include:
While filtering and UV-sterilization don’t have as big of a role in plant health, chlorine can be an issue. As I said earlier, the treatments done to our drinking water are regulated at the level of human health. While the water is safe for us to drink, it may not be good for our plants.
3. Hard vs. Soft Water
If you’re a homeowner, you’ve probably heard of hard and soft water before. Hard water contains fairly high levels of calcium, while soft water does not. The calcium in hard water tends to cause scale build up in water pipes that damages the pipes over time. As a result, public and private water facilities will often manually soften the water by exchanging the calcium ions for sodium ions.
At the concentrations we’re talking about, neither the calcium nor sodium ions are a health issue for humans, but they can cause problems for houseplants.
As I discussed above, there are fertilizers designed for hard water (that provide less calcium to make up for the calcium already present in the water). However, the sodium can become a problem because it is not considered essential to plant growth and can become toxic.
Orchids, especially, are sensitive to excess salt build up, like sodium chloride.
What to look for: Is your water hard, naturally soft, or manually softened?
I don’t know about you, but twice a year, Day Light Savings always messes me up. For at least a week after we fall back or spring forward, I’m a wreck—I can’t focus, I’m more tired than usual.
Part of the problem is because that 1 measly hour change messes with the human body’s circadian rhythm. You may have heard of that term before, in Latin circadian roughly translates to “about day”, meaning this rhythm is about ~24hrs long.
Although we still don’t understand all of the details of circadian rhythms, here are some things we do know:
Circadian rhythm in plants:
The most visible way that plants demonstrate their circadian rhythm is by tracking the sun with their leaves or flowers. In fact, the first time this motion appeared in scientific reports was in the 1700s, so we’ve know about it for a while. Even today, we don’t understand exactly how plants control their circadian rhythm.
Sunflowers are excellent for observing this solar tracking. What’s absolutely wild about these flowers is that they reset themselves at night. They follow the sun from east to west during the day, but overnight they reset back to face east for the next sunrise. This demonstrates that, although they may follow the environmental cue of sunlight, that’s not the only driver. Without sunlight at night, they still somehow move back to face east (not south or north) and they are reset back to east before the sun rises again. Check out this video to watch sunflowers in action: https://www.nature.com/news/video-sunflowers-move-to-internal-rhythm-1.15548
Circadian rhythm in orchids:
The most obvious example of circadian rhythm in orchids that I’ve observed in my own plants is flower scent. Have you ever bought a plant that the grower swore smelled beautiful, but every time you smell it, there’s no scent? Try smelling that flower at different times of the day—including the middle of the night. The chemicals responsible for the scent are expensive for the orchid to make. Most orchids won’t waste the energy or resources to make those chemicals if their pollinator isn’t active. It’s like calling your night-owl friend at 6am. Why bother when you know she’ll be asleep and won’t answer? You have a better chance of her answering if you wait for a time when you know she’ll be awake.
For instance, I have an oncidium that only has a scent in early afternoon while my mom has a brassolaeliocattleya (Blc.) that has the most beautiful, powerful scent…at 2am. The difference is that my oncidium’s target pollinator is probably most active in the middle of the day, while the Blc.’s pollinator is likely nocturnal.
Biomes – an area of land with specific environmental conditions that is home to animals and plants adapted to those conditions
The greatest diversity of orchids are found in tropical and subtropical regions of the world. These are areas with a lot of rain and warm average annual temperatures. Epiphytic orchids are almost exclusively found in these biomes because their roots grow out into the air where they have no soil or media to moderate temperature or protect them from water loss. Meanwhile, cooler climates are home to terrestrial orchids that can survive harsh winters with their roots and rhizomes safely buried under ground.
Rainfall and temperature are the most common environmental factors used to define biomes.
These environmental factors are largely controlled by where on the planet the biome is located. Tropical biomes are found right along the equator, while subtropical biomes are a bit further away from the equator.
For a more information, check out the charts below!
Because most scientific articles and texts are published using metric units, I spruced up this graph to include imperial units (inches and Fahrenheit) so my fellow Americans could follow along. (Figure adapted from Whittaker, R.H. Communities and Ecosystems. New York: Macimmilian, 1975; and Rickefs, R.E. The Economy of Nature. New York: W. H. Freeman, 2000.)
This graph, called the Whittaker Biome Model, breaks down common biome types over a range of temperatures and rainfall levels. For instance, from this graph we can estimate that a tropical rainforest receives 80-160 inches of rain per year with an average temperature of ~70-85°F.
This graph also tells us a little bit about the organisms (plants, animals, insects, etc.) that live in those areas. For instance, an epiphytic orchid might grow well in a tropical rainforest or a tropical seasonal forest because the temperatures stay warm all year round and both receive sufficient rainfall. However, a grassland or desert would be too dry for an epiphytic orchid while the taiga and temperate deciduous/coniferous forests would be too cold.
Sometimes there are overlaps between biomes that would make this graph very confusing, so not every biome is represented here. For example, this graph doesn’t identify subtropical rainforests, but we can still talk about them in terms of their rainfall and temperature. Subtropical rainforests are characterized by receiving a lot of precipitation, at least 30 inches. They also tend to be cooler than tropical rainforests, although the temperature rarely goes below freezing. Orchids living in subtropical rainforests will be more tolerant of cooler, drier conditions.
This map of the planet is colored for biomes, rather than countries. If you look carefully you’ll notice that there are lateral bands/zones of particular biomes. From equator to poles, it goes: Tropical rainforest – tropical grassland – desert – temperate forest – taiga – tundra. This makes sense because we know that average annual temperature decreases as we move away from the equator.
In honor of Halloween, I thought I’d highlight some spooky orchids.
This first orchid is Miltassia Kauai’s Choice, sometimes referred to as a spider orchid. This is Mom’s orchid that recently bloomed. The diameter of these blooms are 10 inches from top to bottom. Miltassia is an intergenic hybrid between members of the Brassia and Miltonia genera.
I found this next orchid, Fdk. After Dark, in Longwood Garden’s orchid display. Fdk is the abbreviation for Fredclarkeara which is another intergenic cross between members of the Catasetum, Clowesia, and Mormodes genera.
I thought the deep red/black color of these blooms gave them an eerie, yet beautiful, look.
I hope you enjoyed this short post. If you know any other spooky orchids that you think I missed, let me know if the comment section below!
I'll get back to my series on orchid care leading up to transplanting next week.
I’m starting a several part series of posts on orchid biology that will eventually lead to transplanting orchids. I was going to just dive right in to transplanting, but I realized that I’d either have a 12-page post explaining all of the tips and tricks or I’d just leave you with a very unsatisfying “take my word for it” approach. To avoid both of these, I decided to break this into several small posts highlighting different quirks of orchid biology, ending with a quick guide to transplanting orchids.
This first post focuses on the unsung heroes of orchids—the roots. Roots aren’t the prettiest part of the orchid, but they play a very important role in orchid survival. They gather water and nutrients. They provide stability—a base, or attachment, for the rest of the plant.
Always remember: the foundation of any healthy orchid is a healthy foundation.
Let’s take a minute to understand orchid roots so we can raise healthy orchids.
Like most other plants, orchids roots have two main functions: (1) Water and nutrient uptake and transport; and (2) support. The actual nutrient/water conducting part is a bundle of vascular tissue called the vascular cylinder that transfers nutrients and water from the outside to the inside and on to the rest of the plant. The vascular cylinder is more commonly called the “root.” Orchids, however, are more complicated than that. Orchid roots contain a spongey coating around the root called velamen. This velamen absorbs water from the atmosphere when it becomes available and stores it for future use.
Let's look at some real examples of healthy and unhealthy roots:
Check out the photo below. The majority of the roots on this Phalaenopsis Mom and I transplanted are healthy. The ones that were exposed to sunlight are green (because they contain chlorophyll and contain photosynthesize); the ones that were buried in the pot are white (no sunlight = no chlorophyll). Hopefully, from this picture you can see that most of these roots are plump and healthy. There are a couple dead roots, one which I've pointed out below.
This next photo is another root from the same plant as above. Mom is holding a root that is still alive but beginning to rot. You can see three places where the root is beginning to rot and whither (circled in red). We removed this root at the base of the plant because it will only continue to rot and the plant had enough healthy roots to not miss this one.
Now that you know how to identify healthy and unhealthy roots, let's talk about the two functions of roots I mentioned above (water/nutrient transport and structure).
(1) Water and nutrient uptake.
I'm a plant biologist, so I like to learn about the natural conditions that my orchids would encounter to decide how I'm going to care for them in my home. Below is a little flow chart of watering and fertilizing tips.
Fun fact of the Day: The American Orchid Society has culture sheets with growing tips for each genus here: http://www.aos.org/orchids/culture-sheets.aspx
Also, Mom's first book, Orchid Care: For the Beginner focuses on general tips for taking care orchids in your home. Her upcoming book will focus more on specific details of each major genera.
How the roots support the plant is a little different for different genera of orchids. Let's start with terrestrial orchids because they are the most similar to other plants we're more familiar with. The photo on the right is a cypripedium orchid that I found in a marsh in New York. Like any other terrestrial plant its roots form the base of the plant and allow it to grow upright without falling over.
Epiphytic orchids are a little different, though. See how this Phalaenopsis’ roots are growing in every direction? Think of it like arms blinding reaching out for something to hold on to. In the wild, when the roots hit something like the bark of a tree or the side of a cliff, the roots flatten out and glue themselves to the substrate as they grow.
The roots of epiphytic orchids secrete a glue-like substance from the actively growing tips that attaches them to whatever they’re growing on. A couple years ago, Mom gave this a try with a Phalaenopsis. She tied it to a piece of bark and eventually it attached itself. The roots grow down into the grooves of the bark and even around the back of the bark.
Alright, that's all I have for now on orchid roots. If you have questions/comments on roots or suggestion for future topics, feel free to email firstname.lastname@example.org or leave a comment below.
For those of us who love orchids, it can be tricky convincing others that orchids are fun and fairly easy to grow. They have some quirks that make them a little different than raising your average houseplant, but with the right tricks you can successfully grow most orchids at home.
Last week, Mom and I participated in Judy’s Day, a fabulous family outreach event hosted by the Cornell Botanic Gardens (https://www.cornellbotanicgardens.org/learning/youth-programs/judys-day). The goal of Judy’s Day was to provide fun, informative, and thought-provoking answers to many of the questions surrounding plants. Each booth featured a different member of the plant family and they all had hands-on activities to engage kids in plant science.
Mom and I ran the Orchids Tent along with the help of another Cornell graduate student, Gozde, and some enthusiastic undergraduates. Our booth had a scavenger hunt where kids had to identify orchids based on characteristics like to monopodial vs. sympodial growth, flower shape, and leaf structure. The prize for correctly identifying all the orchids was a temporary tattoo Mom designed using one of her orchids.
Hello! I’m Jen, Barb’s daughter and plant enthusiast. The photo above is Mom and I at Sequoia National Park last winter. Sequoias are my favorite trees, but orchids are my favorite flowering plants. I’m not the orchid expert that Mom is, but I’ve been raising orchids for nearly as long and love plants. My apartment is stuffed full of orchids, some of which won ribbons at the Philadelphia Flower Show’s competitions. I’m starting this blog for several reasons.
Jen Schmidt is a graduate student at Cornell University who, with the help of her mother (Barb) is turning into a crazy plant lady at a young age.