When Nature Gets Thirsty

Water is the fountain of life. Without water, nothing grows, including us! But not everything in nature can have all the water it needs, all the time. If plants and animals get too thirsty, they get stressed. When nature dries out, dangerous conditions like droughts and wildfires can happen. It is important for national park managers to understand where and when nature is thirsty. As scientists, we track how much water falls as rain and snow. Then we subtract how much water leaves through rivers, groundwater, and evaporation. The leftover water can be used by plants and animals. We compare how much water plants want to how much water is available, so we can know how thirsty plants are. The hotter it is, the faster water disappears. By knowing when and where nature is thirsty, park managers can take actions to help protect parks.

out. Thirst, like hunger, is a need that must be satisfied. Every plant and animal can get thirsty, no matter where they are, how big, how small, or how old. You can tell if a plant in your house is thirsty by its drooping or wilted leaves. In national parks, how can park managers tell if a forest or grassland or desert is thirsty? When does a stream or wetland become thirsty?

MANY FORMS OF WATER, IN BALANCE
Before we can understand thirst in nature, we must think about water and where it exists. Picture yourself on a hike through your favorite national park. You follow the trail around a corner and spot a beautiful watery scene. What do you see? A mountain lake? Waves on the ocean? Nice! Now put on your detective's cap and look again. Can you find more water? We will give you a hint: water is everywhere, hiding in plain sight! Water can be frozen in snow or ice. There is water running up the trunk of the tree beside you, as sap, and pulsing in the blood of a squirrel in the tree's branches. There is invisible water in the air around you. There is even water in the soil under your feet. With water in so many forms and places, how can a scientist possibly keep track of it all? We use a concept called water balance to help us out. Water balance

WATER BALANCE
The idea that water flowing into a system, like rain and snow, equals the water stored in a system plus the water flowing out of a system. means that the water that goes into a system is equal to the water coming out of that system. It is balanced, like a math equation! Let us start with a system you know well: your own body. The water that goes into your body is the water you drink. Some water is stored in your cells for your body to use. You can probably think of one way that water leaves your body-as pee! Other water leaves your body when you breathe and when you sweat. If you could measure it all, you would know how much water your body uses to keep you alive and healthy. But some of that water is hard to measure, right? How do you measure the invisible water in your breath, or the sweat that keeps you cool via evaporation? EVAPORATION The process of water turning from liquid to gas.
That is where a little bit of math comes in handy. If you take the inputs that are easy to measure (the amount of water you drink) and subtract the outputs that are easy to measure (the volume of your pee), there is still some water left. The leftover part is everything else: storage, sweat, and breath. So, the water you drink equals the water leaving your body, but there is some water that stays inside you to keep you alive. All of the water moving into, through, and out of your body is your personal water balance.

WHAT ABOUT WATER IN NATURE?
Water in nature works just like it does in your body. Water comes into a park as rain or snow. See if you can follow the paths water might take in a park like Yellowstone, in Figure . Some water fills rivers, streams, kids.frontiersin.org July | Volume | Article | Figure   Figure Nature's water balance has water in di erent "pools," like rivers, snow, soil, and air, in this example from Yellowstone National Park. and wetlands where wildlife can take a cool drink. Other water is stored in the soil where it can be used by plants. This hidden water is like the water in your cells that keeps you alive. Like your sweat, some water evaporates from the soil and through plant leaves as they make food. Water evaporating through plant leaves is called transpiration, and

TRANSPIRATION
The process of water moving through a plant and out its leaves.
it is actually the dry air pulling water through the plants, like you do when drinking from a straw. Scientists smash two words into one, to describe the process by which nature's water goes back into the air via evaporation and transpiration: evapotranspiration. Once water is

EVAPO-TRANSPIRATION
The sum of water moving into the air through evaporation and transpiration.
in the air, it is no longer available for plants and animals to use.
To understand thirst in nature, scientists need to know how much water is in di erent pools (streams, wetlands, soil, and plants) and where it goes as it leaves a park. Scientists study plants and animals over time, checking their conditions in dry years and wet years. What they find again and again is that plants and animals survive in places that have the right kind of water (frozen, liquid, or gas) in the right amounts and at the right times to meet their needs. A frog and a cactus can both live in the desert if they have the right pools of water at the right times ( Figure ). We say those plants and animals are adapted makes sense that nature gets thirsty when there is less rain and snow than usual, because then there is less water to go around. But another important factor helps determine thirst: heat!

WHAT HAPPENS WHEN THE TEMPERATURE GOES UP?
How much water do you drink in a day? Is the amount di erent if you are running around outside than if you are reading a book indoors? When you exercise, you breathe hard and sweat, losing water. This water loss can really add up! To meet your body's needs during a summer bike ride, you need to take a drink to fill up again. Just like you, plants and animals have water needs that can change. When it is hot, sunny, and dry, plants and animals run out of water faster because evapotranspiration is faster.
Remember water balance: water coming in equals water going out. If more water enters the air through evapotranspiration, then less water is available in streams, rivers, and wetlands. The soil starts to dry out, too. It becomes harder for plants and animals to get the water they need. But unlike you, a plant can not grab a glass of water, and even most animals can not move far to find water. Unless it rains or snows, nature's pools (streams, wetlands, rivers, lakes, soil moisture, water in plants and animals) get emptier and emptier. Heat is an important part of the water-balance math because it determines how quickly water moves from pools that plants and animals can use into the air, where it is inaccessible.

WHAT HAPPENS WHEN PLANTS AND ANIMALS GET THIRSTY?
When plants and animals can not have all the water they need, they get thirsty. In nature, this thirst is called drought. Every plant and animal

HOW CAN WE HELP NATURE HANDLE THE HEAT?
We know that temperatures around the world are going up. As the world gets hotter, many places we care about will experience more drought, even if the same amount of rain and snow falls. Understanding water balance can help park managers prepare for this future by helping them to know which plants and animals might have trouble, which ones might be just fine, and which places will allow plants and animals to thrive.
Park managers can not just add water to prevent drought. Parks are way too big for that. Instead, they can help plants and animals in various ways. By calculating nature's water balance, park managers know when campfires could become forest fires. They can tell when streams need more water and when fish must work harder to survive. In those cases, they might post signs that say, "No Campfires kids.frontiersin.org July | Volume | Article | Allowed," or "No Fishing." When conditions improve, they take down those signs.
Being prepared for changes can help minimize the e ects of drought and heat. Park managers can prepare for a warmer future by planting pine trees on cooler slopes at Yellowstone. They can choose grasses wildlife like to eat that are adapted to drought in the desert. They can use controlled fires to clear undergrowth and protect giant sequoia groves from severe wildfires. They can predict which ponds will persist for frogs and make sure to remove non-native fish that eat frogs from those ponds, to help keep the frogs safe. Park managers can even plan for drinking water sources that may go dry, so future visitors have enough to drink! By understanding how heat and water interact in nature's water balance, park managers are preparing for hotter and drier days in the future. But there is much we still need to learn. Can you help scientists find solutions for nature? . doi: . /frym. .

CONFLICT OF INTEREST:
The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.
kids.frontiersin.org July | Volume | Article | COPYRIGHT © Weissinger, Thoma and Biel. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

ETHAN, AGE:
Ethan is an -years old boy that is currently in the third grade. He enjoys reading, writing, and studying math and history. During his free time, he plays basketball, tennis, and various other sports with his younger brother. He also loves exploring and learning about the nature. He lives in Virginia with his younger brother and parents. One day, he hopes to get a pet.
KING'S SCHOOL, CANTERBURY, AGES: -We are an energetic year class who are curious about the latest science. We are glad that scientists are doing their best to continue their research in these di cult times! It makes us happy that we can support them through this review.