Have you ever wondered how trees endure the freezing temperatures of a cold winter? Since they can’t hibernate or migrate to warmer climates, trees have developed several ways to tolerate the cold and survive to warmer spring days.
They have bark
Bark provides insulation and protection against freezing and cracking during the winter. Tree bark comes in different textures, densities, and colors - variations that can help a tree tolerate cold temperatures by reflecting light and dispersing heat.
They drop their leaves or have needle leaves
Broadleaf, deciduous trees lose their leaves in the winter to reduce water loss. Most needle-leaved trees, known as conifers, retain needles year round - with exceptions such as larch and bald cypress trees – only losing older, damaged needles. Needles are better at retaining water than broadleaves thanks to their small surface area and waxy outer coating that limits water loss to transpiration, the evaporation of water from leaves.
They slowly increase their cold tolerance at the cellular level
Trees begin to prepare for an oncoming winter in late summer as daylight hours decline, entering a dormant state and reaching their adapted tolerance by mid-winter. Through a combination of cellular changes that involve shrinkage, dehydration, and sugar concentration, the cells harden and become glasslike. This helps prevent freezing and damage to living cells.
What happens when they just can’t take it?
While trees have evolved amazing strategies for withstanding the winter cold, sometimes it gets so cold that trees can explode. Yes, you read that right. During spells of extreme cold or when trees haven’t had time to acclimate, the life-sustaining sap inside a tree can begin to freeze. Sap contains water so it expands when frozen, putting pressure on the bark, which can break and create an explosion. There are numerous historic and current observations of trees exploding due to extreme cold.
Let our Certified Arborists help your trees remain strong!