Winter: The Iconic "Georgian Bay Tree"

Picture a Georgian Bay tree.

Did you picture a white pine? I imagine you did! The white pine is the classic Georgian Bay tree. You know the one; its windswept branches arc across the surfaces of paintings, pillows, mugs, and t-shirts in nearly any gift shop or décor store in the Biosphere. In fact, the Georgian Bay Biosphere’s own logo features a white pine!

So why is this tree so closely connected to Georgian Bay? Let's explore some of the reasons why the white pine is such a special tree for so many people. Maybe it’s a special tree for you, too!

An iconic "windswept white pine" grows on the shores of Georgian Bay.
Credit: Kayla Martin

A Special Look

White pines are very common in and around the Georgian Bay Biosphere because they can grow in the thin soils that cover all the bedrock in the landscape (the Canadian Shield!). Sometimes you will even see a white pine growing in a tiny pocket of soil in a crack among the rocks. Not all tree species can tolerate the shallow soils and strong winds along Georgian Bay, but the white pine can!

Shallow soils and windy weather? White pines don't mind!
 Credit: Kayla Martin

White pines have bundles of long green needles along their branches. One way to identify a white pine is to count the number of needles in each bundle. There should be 5 needles per bundle, and since there are 5 letters in the word “white” you can just remember the number 5 and it will help you identify this tree. White pines are coniferous trees, meaning that the tree’s “leaves” are actually long, narrow needles, and the tree keeps most of these needles year-round. This is different from a deciduous tree (like a maple or oak), which has flat leaves that drop to the ground in fall and regrow in spring. White pines have tall, straight trunks… but sometimes the trunks grow into a curved shape. This happens sometimes out in open areas on Georgian Bay, where strong west winds push against white pines constantly for years as the trees grow. This is how we ended up with the classic “windswept pine” icon for Georgian Bay!

From left: needle bundle (5 needles), branch tip, and pine cone, all from a white pine. Credit: Kayla Martin

White pines were also a favourite subject for the Group of Seven, a group of Canadian artists well-known for their landscape paintings.

Does this look familiar? It's "White Pine" by Group of Seven painter A.J. Casson, from around 1957. 

     

   A Special History

For thousands of years, Indigenous people were also sharing their knowledge about white pines. The resin (the sticky goo that sometimes drips out from the tree) was traditionally used by Indigenous People to cover wounds to help prevent infection. The sticky resin could sometimes be used to seal the seams on waterproof wiigwaas jiimaanan (birchbark canoes).

    A Special Building Material

White pines also captured the attention of European settlers who came to what is now Ontario. In the 1800s, many people were logging (cutting down) white pines. The tall, straight trunks of the white pines were perfect for building tall masts for big sailing ships that were used to send materials between North America and Europe. Later on, in the mid-to-late 1800s, people started to use white pine timber for building homes and buildings.

Logging white pine in Foley Township, around the year 1880.
Credit D.F. Macdonald and Parry Sound Public Library.

People chose to cut down the oldest, largest trees. White pines can be very big and very old: they can grow over 30 m tall, almost 4 m in diameter (thickness of the trunk), and can be hundreds of years old! There were some old, tall white pines all throughout the Biosphere, but unfortunately they were cut down. 

These days people try to be more careful about logging. We avoid cutting down too many big, old trees all in one place. In many years the Biosphere will hopefully have lots more big, old white pines!

 

    A Special Tree for Wildlife

The Biosphere animals may not be able to decorate their burrows, dens, and nests with white pine-themed pillows and artwork, but the animals love white pine just as much as people do!

First, many animals use white pines for shelter. For example, black bears send their cubs to the “white pine daycare”. While the mother bear goes out to search for food, she might leave her cubs up in the safety of a big white pine. The sturdy branches support the weight of the cubs and the strong, rough bark makes it easier to climb up the tree. White pines also provide good nest sites for birds such as bald eagles, osprey, and Cooper’s hawks. Pileated woodpeckers excavate holes in white pines when feeding or creating a nest cavity. Once a pileated woodpecker is done with a nest cavity, other animals (such as chickadees and flying squirrels) might take up residence in the cavity.

Peek-a-boo, peeper! A spring peeper hides in the bark of a white pine.
Credit: Kayla Martin

Can you find the bird?
This Brown Creeper goes up and down the trunk of a white pine in search of tasty insects!
Credit: Kayla Martin

Next, white pine is a popular item on the menu for many animals in the Biosphere. Porcupines gnaw on the bark of white pines. Snowshoe hares and white-tailed deer like to eat the new growth (soft needles). The seeds are also eaten by small mammals such as red squirrels and mice and birds such as pine grosbeaks. These animals have to work hard to break open the pine cones, exposing the little seeds inside. 

The seeds (left) of a white pine are protected in a pine cone.
Credit: Nancy Castillo

But how can white pines spread their seeds if animals keep eating the seeds? Well, many trees including white pines have a strategy for that! It’s called a mast year. In the case of trees, mast means all the seeds produced by a tree, whether these seeds are in the form of acorns or in pine cones. White pines, for example, produce lower amounts of seeds (in pine cones) most years (non-mast years). They save up energy by not producing a lot of seeds, but unfortunately for the trees many of their seeds during non-mast years will be eaten. Every 7-10 years, a white pine has stored enough energy that it can produce a LOT of seeds. When this happens, it’s called a mast year. Here’s the trick: the white pine produces SO MANY seeds that there are simply too many for animals to eat them all. This means some seeds will remain and hopefully grow to become big white pines.

The Coolest Hummers

Meet the tiniest bird in the Biosphere, the Ruby-throated Hummingbird! These amazing little creatures have a lot of attitude and determination, despite their size. We’ve got no time to waste! Let’s get going with some fast facts on the Ruby-throated Hummingbird! 

HERE'S HOW YOU CAN HELP HUMMINGBIRDS

GBBR's office has a pollinator garden! 
Photo: Mackenzie Ruffo

    1. Hummingbirds like to perch in trees – especially deciduous trees like maples and oaks. If you have trees in your yard, hummingbirds will feel more comfortable visiting! 

     2. Plant a pollinator garden! Hummingbirds like to eat nectar from different species of flowers. They also love to pick off little insects from plants. Here are a few favourite native flowers for the Ruby-throated hummingbird: 

• Wild columbine
  
• Cardinal flower
  
• Spotted jewelweed
  
• Bee balm (also called wild bergamot)    

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·     3. Keep your cats inside! Cats are a major threat to hummingbirds – especially when the hummingbirds are in torpor and are slow to respond to a sneaky cat. If your cat really, really wants to go outside, put them on a leash and supervise them in your yard. Or, build them an outdoor “catio” (a cat patio)!

·     4. Interested in setting up a hummingbird feeder? Here are some basics: 

• Get the recipe for hummingbird nectar here. Remember to use regular white sugar and hot or boiled water! 

  

  Hummingbird visiting a feeder (in the Georgian Bay Biosphere!).
  Photo credit: Tianna Burke
  

  
  
• If you want to feed hummingbirds you have to make sure you are feeding them safely! Change the nectar in the feeder every 3 or 4 days. If you let the nectar sit out too long it will spoil and make the hummingbirds sick. Don’t fill the feeder all the way up if the hummingbirds aren’t using all the nectar within 3 or 4 days. This way you do not waste nectar.
• Hang the feeder at least 1 metre off the ground to keep it out of reach of any stray cats. (Not your cat though, because you keep your cat indoors, on a leash, or in a catio)
• Put the feeder in a shady spot (like near a tree). Keep it at least a metre away from your window so that hummingbirds don’t crash into your window and get hurt!

·      5.  For more information on how to attract hummingbirds to your yard, check out this webpage from the National AudubonSociety. 

COOL STUFF

A National Geographic post by hummingbirdresearcher Anusha Shankar: what it’s like to be a hummingbird researcher, including why it’s helpful to study hummingbird pee! 

 CRITTER CRAFT: Make a Pom-Pom Hummingbird

You will need: 

- 2 pom-poms for the hummingbird's body

-2 eyes (googly eyes or buttons work well!)

-1 or 2 pipe cleaners for the feet and tail

-2 wings cut out from felt or fabric

-1 toothpick painted or coloured black for the beak

-craft glue

How to make your hummingbird:

1.    Start by gluing the wings to the top of one pom-pom. On the end of the same pom-pom, glue on the tail.
2.    Let the glue dry, then gently flip the “body” pom-pom over and glue on the feet.
3.    As the glue dries, glue the beak and eyes onto the other pom-pom to make the hummingbird’s head. You might need to trim the toothpick beak if it’s too long.
4.    Once the head and body are both DRY, you can glue the head pom-pom onto the body pom-pom.
5.    Once it is dry you are done! Let us know in a comment what you named your hummingbird!

Blog by Kayla Martin for the Georgian Bay Biosphere. Cartoons by Kayla Martin. 2020

Pollination Nation: It's the Bee's Knees!

We hear the word pollination more and more now, but what does it actually mean?

Pollination is the process of pollen traveling from the male part of the plant to the female part of the plant (or to a different plant) so that the plant can make seeds and fruit.

Wait a second! Plants have male and female parts?

Yes! The stamen are the male parts of the plant and that is where pollen is produced. The female parts of the plant are called the pistil and this is where the plant's ovary is located.

So, how are plants able to transfer pollen anyway?

Pollen moves around by taking advantage of wind, water, or with the help of pollinators. Pollinators are animals, often insects, that eat sweet nectar produced in flowers. Plants actually produce nectar to attract the pollinators to them! When the animal or insect feeds on nectar, they can't help but touch the pollen which sticks to them. As they travel to multiple plants, the pollen is spread and this is the process of pollination. Hummingbirds, butterflies, and bees are a few of the pollinators that live in the biosphere.

Most plants grow flowers but you will have noticed the huge differences in flower size, shape, colour, and even when a plant blooms - this is no accident! Plants pull out all the stops to try and attract different pollinators. From producing beautiful smells and tasty nectar to having very bright coloured blooms. The shape of the flower can also entice certain animals and insects.

The pink lady slipper is a flower in the biosphere that is designed to make sure the pollinator completes its job of getting the pollen to the ovary of the plant. Once the bee enters the flower it has to crawl through a tube in the flower and exit through the other side!

Flowers also have a hidden signal! Light not only allows us to see but it also gives everything colour! Humans can only see visible light, which gives us the colours in the rainbow, but some pollinators can see UV light too! Some flowers attract pollinators with beautiful UV light patterns. Here is an example of how some bees might see these flowers:

Pollinators like bees are designed to pick up LOTS of pollen on their bodies as they feed on nectar. This helps pollen travel and is necessary for the majority of flowers to produce seeds and fruit. Pollination is important for many species and entire food webs, not just the plants.

What’s happening to pollinators?

Honeybee populations have been declining over the past few years. Scientists think the decline in their populations  is from combinations of disease, pesticides, poor nutrition, climate change, and habitat loss.

Industrial agriculture and the use of pesticides on crops are harming bees. Pesticides and chemicals used to protect crops from pests can dissolve in water. They become mixed into runoff water which travels and can then be absorbed by plants miles away. These pesticides end up in the pollen and nectar of flowers and consumed by bees. These chemicals do not kill the bees right away, it takes time. In fact it has more of an affect on the queen's ability to lay eggs. The chemicals lower the amount of eggs that can be produced by the queen.

Parasites are also attacking bees. A parasite is a tiny creature that feeds on a larger host animal in order to survive. In the case of the bee a very tiny parasitic mite feeds on the bees fat cells. These mites have a scary name Varroa destructor mites and can transmit five different illnesses to the bees.

The last major factor affecting bee populations is the loss of habitat. Cities and industrial agriculture are removing available pollinator habitat. There are fewer native flowers and specific plants that support the life cycles of a variety of pollinators, especially bees and monarch butterflies. This is where you can help out! The actives below are two great ways you can help out the pollinators.

Activity: Make A Mason Bee Hotel

There are over 100 species of solitary bees in Ontario - they don’t live in a hive. Solitary bees rarely sting because they don’t protect a queen. Their number one priority is finding food… and pollinating!
Help promote biodiversity by giving solitary bees eggs a safe place to develop, a mason bee hotel!

Materials: Aluminum can, scissors, paper straws/bamboo cane or make your own nesting tubes using parchment paper by wrapping them around a pencil and securing with glue.

1. Measure and cut the nesting tubes to fit vertically inside the can.

2. Fill the can with nesting tubes until they are secure and don’t move around.

3. Find a location for your mason bee hotel so that it:

• Won't move around in the wind,
• Will be well protected,
• Will get lots of sun, and 
• Is at least 3ft above the ground.
  

4. Optional. Consider planting some native flowers near the mason bee hotel! Wild columbine and black eyed Susan’s are favourite flowers for bee’s and butterflies. Milkweed species aren't just for Monarch butterflies, bees like them too! Learn more about native plants species here.