Weird and Wonderful Water

Water is the stuff of life. We can't live without it, and neither can the rest of the food chain. The search for extraterrestrial life hinges on whether or not a planet or moon contains liquid water, but that assumes that any life off Earth is the same as Earth-based life. This week we'll take a look about what makes water so special and how it keeps all of us alive.

Water, the most abundant substance on Earth.
Unless air is more abundant.

Water is unique among all chemicals (yes, it's a chemical) because it is the only one found in solid, liquid, and gas states naturally on Earth. While ice and water vapor aren't basic requirements for life, they are key components of the water cycle. Water stored as snow and ice in the mountains is slowly released during the dry summers in the American west, meaning a steady flow in rivers throughout the year. Clouds made of water vapor transport precipitation over long distances. On top of that, ice and steam make modern life more convenient- think food storage and electricity generation.

Winter snow waiting for the spring melt, March 2016

Typically, solids are more dense than liquids, which in turn are more dense than gases. Water flips this around, as ice is less dense than liquid water. If you freeze a container of water, you'll notice that the ice fills more of the container than the water did. This is why your frozen pipes burst in winter. The expansion of water as it freezes is a visual of the density decreasing. Because ice is less dense than water, it floats. Because ice floats, it forms on the surface of lakes and other bodies. This allows aquatic life to survive. If water froze from the bottom up, everything would either freeze in place, or eventually be exposed on the surface.

Molecular structure of liquid water and ice (Mountain Empire CC)

Water has adhesive and cohesive properties. Water molecules stick to each other (cohesion) and other substances (adhesion). Adhesion causes capillary action. This is the movement that is responsible for plants being able to absorb water in the ground through their roots, up the stem, and to the highest leaves. Cohesion also contributes to surface tension. Water molecules on the surface are more tightly packed and can resist pressure from outside forces. This allows objects to float. Water striders can stand on the surface because of surface tension.

Water strider striding water (National Wildlife Federation)

Water has a high specific heat. Specific heat is the amount of energy needed to raise the temperature of a gram of water by one degree Celsius. Because it takes a lot of energy (1 calorie per gram) to heat water, it takes a lot of heat to boil water. Ocean life appreciates not being boiled. Water also holds onto heat it absorbs and releases it slowly, moderating Earth's temperature and making the seasonal changes gradual.

Water dissolves more substances than any other. The polar structure of the water molecule. The positive hydrogen end will attract negative ions, while the negative oxygen ends attract positive ions. Water's solvency is important for plants and animals to absorb nutrients, and for animals to flush waste from their bodies. Nonpolar substances like fats do not dissolve. That's where the saying "Oil and water don't mix" comes from. Less dense fats will float on top of water, and with some skill they can be separated.

Next time you take a drink, raise a glass in appreciation of water. Without it, your drink wouldn't be here and neither would you. This week's information comes from USGS and Mountain Empire Community College.

Species of the Month

Halloween is just around the corner. Traditionally, we examine a spooky critter with a connection to Halloween for the Species of the Month. This year let’s try something different. There’s nothing scary about a ghost crab, but its name fits the season. 

Ghost crab (Science Magazine)

Scientific name: Ocypode quadrata 

Kingdom: Animalia (animals)

Class: Malacostraca (soft-shelled crustaceans)

Order: Decapoda (ten-footed crustaceans)

Range: Rhode Island to Brazil 

Habitat: Ocean or estuary beaches, from the tide line to the dunes 

Lifespan: 3 years 

Diet: Bean clams, mole crabs, sea turtle eggs and hatchlings, organic detritus 

Predators: Shore birds, gulls, raccoons 

Conservation status: No special protection

Other info: Ghost crabs are small, nocturnal crustaceans. They grow to about a two inch carapace (back shell) with long legs and eye stalks, and their claws are uneven sizes. Ghost crabs hatch from an egg in the ocean and go through six larval stages before developing into adult crabs. Unlike other crabs that can only mate when the female is molting, ghost crabs can and do mate at anytime after reaching maturity which is usually after a year old.  

Juvenile ghost crab (NPS)

Ghost crabs live in burrows in the sand. They plug the holes during the day and emerge at night for feeding and mating. Mating occurs near the male’s burrow. They travel several feet per night and may not return to the same burrow. Occasionally they will go into the water to wet their gills; they are also capable of absorbing water from the sand into their gills. 

Ghost crabs can be used as an indicator species to monitor the health of their habitat. Populations can be easily estimated by counting burrows. Knowing the status of the crab population can tell what kind of impact human activities are having on the ecosystem overall. Off road vehicles and coastal development are the biggest challenges we give them. 

A pair of ghost crabs (NPS)

Once again this week's information comes from the Animal Diversity Web at University of Michigan. Next week is a rerun. We'll have fresh content after Halloween. Stay tuned!

South American Splendor

Hispanic Heritage Month is about to wrap up, and before it does let's celebrate by taking a look at some of the fantastic ecosystems south of the border. While the Amazon and Andes are the best known features of South America, there are many diverse habitats. This week we're exploring the Pantanal, the Pampas, and the Llanos, important natural features maybe you've never heard of.

The Pantanal is the largest wetlands in the world, located in Brazil, Bolivia, and Paraguay. Located just south of the Amazon, and in its shadow, the Pantanal actually has a higher concentration of wildlife than its more celebrated neighbor. This wetland is flooded by annual monsoon rains that leave behind pools of snacks for birds. Unlike the Amazon, the Pantanal is open, so ecotourism is easier. Not only are there better views of the wildlife and scenery, it's also more accessible because of the openness.

Pantanal (The Guardian)

The Pampas is a large grassland like the Serengeti or the Great Plains. It is in Argentina, Brazil, and Uraguay. It is flat and gently slopes toward the Atlantic. The western Pampas near the Andes is a dry section with brackish streams and ponds, but in the east it is more humid, better watered, and more fertile. While much of the land is still unchanged, large areas have been developed for agriculture.

Pampas (The South American Specialists)

The Llanos is a tropical grassland in Colombia and Venezuela. Wedged between mountains and highlands, the Orinoco River drains the region. Seasonal rains flood the plains, and after the rainy season it can be quite parched. The dryness had limited development in the past, but irrigation and mining activities are making it economical for people to live in the area.

Llanos (Latin America & Caribbean Geographic)

South America has so much more to offer than tropical rain forests and jagged mountain peaks. I hope this piqued your curiosity about these and other lesser known natural wonders. Information this week comes from National Geographic (Pantanal), Britannica (Pampas), and Geography (Llanos).

Firefly Recap 2020

The 2020 Firefly Watch is complete, and it's time to crunch the numbers. While many science opportunities were cancelled this year because of the coronavirus, standing in my parents' back yard at night was not affected at all. 

I started with this project in 2018 and chose to continue at the same location in order to monitor the same population. Protocol for Firefly Watch is to count the number of flashes in three periods of ten seconds each on the same night. We record the number of flashes, the color of the flashes, the flash pattern (single flash, J shaped, double flash, etc.), and weather data- temperature, wind, cloud cover, and precipitation. I chose to use the same dates every year. I ended observation when after being shut out twice in a row. This year observations ended on September 3, the earliest end date so far.

Observations got off to a slow start this year. By the time I got through the first observation of June, I only had three flashes recorded. By the end of June, things were picking up. Flashes peaked slightly earlier than previous years, and lasted slightly longer. The post-peak crash wasn't as steep this year. Despite the slow start, early finish, and missing two observations because of vacation, the 2020 total number of flashes was the highest of the three seasons I've done Firefly Watch. 2018 had 694 flashes, 674 in 2019, and 708 in 2020. The increases and decreases year to year are slight, and statistically speaking the population is stable. 

I blame the slow start on the weather. My first observation was May 21, which was less than three weeks after our last snow flurry of the season. A warm winter gave way to a cold spring, which probably delayed firefly emergence.

I will credit the coronavirus along with the weather for the higher number of flashes this year. Fireflies prefer a dark night so they can see each other better. Due to the virus, baseball games were cancelled at the park adjacent to my parents' house. No stadium lights, and the lights at the school next door were off late in the season due to school being digital to start the year. There was no rain during any of my observations this year, and that made for better flying weather. No lightning also makes a darker sky.

I am already looking forward to the start of the 2021 season. Observations will be on Fridays and Mondays next year. Three day weekend getaways might have to wait until September, but as long as firefly numbers remain steady or increase, it will be worth the wait.

Species of the Month

The elk rut is upon us, so to that end the Species of the Month for September is the elk. In North America there are four surviving subspecies and two that are extinct. In Eurasia, where it is known as red deer, there are eight subspecies. 

Female elk herd

Scientific name: Cervus elaphus

Kingdom: Animalia (animals) 

Class: Mammalia (mammals) 

Order: Artiodactyla (even-toed ungulates)

Bull elk

Range: Western North America, northern Europe, northern Asia, isolated reintroduced populations in eastern US, introduced populations in Ireland, Argentina, Australia, New Zealand, and Chile

Habitat: Open woodlands

Lifespan: Average 20 years, but difficult to gauge due to hunting

Diet: Grasses, sedges, forbs; woody growth in winter

Predators: Gray wolves, coyotes, mountain lions, bears

Conservation Status: No special protection 

Elk calf nursing

Other Information: The elk is known for the haunting bugle call of the male during the rut. Bugling is used for attracting a mate and advertising territory. Like other horned or antlered mammals, male elk will spar to establish dominance. Dominant males form a harem of females. On occasion, a lesser male will sneak in to mate with one or more of the harem. Elk are social and form segregated herds. Females and calves are dominated by a single alpha female. Males form a bachelor herd. The sexes mingle during the late summer/early fall migration and mating season. Following the birth of calves, mothers and their babies form a separate nursery herd away from the rest of their normal herd. Aside from being larger than deer, elk can also be distinguished by a larger head, dark mane, and large white rump patch. Like deer, elk are most active in early morning and late evening. Coming around a bend on the way to work and seeing the big white butt in the road is a great way to start the day, if given enough stopping distance. Elk browse on grasses and forbs in spring, summer, and fall. Their winter diet may include green woody growth. As ungulates, they have a multi-chambered stomach and chew their cud. Only male elk grow antlers, which they shed annually. Eastern populations of elk were extirpated in the 19th century. Several successful reintroductions of Rocky Mountain elk have since occurred, notably in Elk County, Pennsylvania, and Kentucky.

Bull elk showing off his rump patch

This week's information comes from University of Michigan's Animal Diversity Web. Stay tuned for a recap of the 2020 firefly season next week.

The Ozarks

 Last month I visited family in Missouri. I'd been through Missouri many years before, and remember it being mostly flat. I was travelling out of St. Louis towards Kansas City then. This time, I went southwest out of St. Louis. The road was like sailing the ocean over the waves. Up down one hill then up the next. I always thought the Ozarks were in the southwest corner of the state. It turns out pretty much the whole southern half of Missouri is Ozarks. The undulation leveled out a bit once I reached the Springfield Plateau in the southwest. But it was nowhere near as flat as Illinois.

The wildlife in the Ozarks is different from what I'm used to in Pennsylvania. However, I didn't get to see very many new critters. There are freshwater clams in Stockton Lake. I saw plenty of armadillos, but they were all dead. No roadrunners, no rattlesnakes, no scorpions, and no tarantulas. I saw some insects that I have at home, like a wheel bug, a milkweed bug, and the ubiquitous deer. Southern leopard frogs in a spring house at a Civil War battlefield was a nice surprise.

Wheel bug

Bird poop moth

Milkweed beetle

Black swallowtail

Freshwater clam

There was more forest than I expected to see. I got to check out some oak savanna. Most of the land in the Springfield Plateau that I saw was farmland. There were some crops, mostly corn, but the majority was cattle pasture.

It was nice to see some butterflies finally. Compared to last summer, I haven't seen very many this year. Apparently once you leave Bucks County they are everywhere. The Flight 93 memorial in western Pennsylvania has quite a few grasshoppers too. Turkeys flew across the road ahead of me somewhere in that area. Elsewhere, the sky was full of turkey vultures and hawks that I couldn't identify. A fox ran across the road ahead of me in Indiana.

Dead luna moth

Fence lizard

Fritillary (left) and buckeye (right) butterflies

Southern leopard frogs

Dead armadillo

Even though I didn't set out to explore nature on this trip, it still happened. It happens everywhere I go now that I've been trained to see things everywhere. Next time you are out and about, take a look around and notice what you see.

Tiger swallowtail

Oak savanna

Hard Working Animals

Police dogs, draft horses, barn cats, and lab rats are all animals that could be considered to work a full time job. In a salute to Labor Day, here are a few wild animals that work just as hard as humans and domestic animals.

Earthworms are working hard to keep your garden healthy. Often overlooked because they remain unseen, these slimy little guys are tunneling all day, allowing air and water to move around the soil. They cycle nutrients by eating decaying plant matter, creating fertilizer that living plants can use. 

Earthworm (Christian Science Monitor)

Mound building termites built mud homes that can reach heights of 17 feet and displace a quarter ton of soil. It can take years to build, and a single heavy rainstorm can damage or destroy it. Worker termites are always on the ready to make repairs as needed. Additionally, they also farm a fungus as a digestive aid. The fungus breaks down partially digested cellulose from the wood and grass the termites had eaten. After the fungus does its thing, the termites re-ingest what the fungus broke down.

Termite mound (Journal of Experimental Biology)

Beavers are the best known engineers in the animal world. They build water tight dams out of sticks and mud. Ponds form behind the dam, and while the beavers selfishly build dams and create ponds for themselves, the important wetland habitat benefits many other species as well. Even humans benefit, as the wetlands filter water and serve as flood control.

Beaver preening

Beaver dam

While you're enjoying a long weekend, just remember the critters that work hard 365 days a year just to survive. This week's information comes from National Geographic for worms and termites.

Crater Lake

This month is six years since my visit to fabulous Crater Lake National Park in Oregon. America's deepest lake at nearly 2000 feet in depth, it sits inside the collapsed caldera of an ancient volcano. Wizard Island near the west side of the lake is a volcano within a volcano. The lake is fed entirely by rain and snow. The amount falling in each year is nearly equal to what evaporates of leaks out the bottom. Crater Lake is what I can only describe as being impossibly blue. Pictures don't do it justice.

Crater Lake seen from West Rim Drive

In addition to the lake, the park also features forests, wildflower meadows, waterfalls, pumice deserts, cinder cones, and formations called pinnacles. The pumice deserts were formed by volcanic eruptions depositing pumice. Like sand, it drains very well so there is little moisture retained in the ground. Like in a true desert, only the hardiest plants can scratch out a living. 

Pumice desert

The pinnacles were originally volcanic steam vents. As gas and steam were released, moisture mixed with the surrounding ash and formed a thick cement. Mount Mazama, the ancient volcano that formed Crater Lake, had its last major eruption 7700 years ago. Following a massive eruption of ash and pumice, a huge explosion caused the mountain to collapse into itself. 

Wizard Island, a caldera within a caldera

Red Cinder Cone, a shadow of the volcanic past

While visiting Crater Lake, I got to do a bit of exploring. I started a sunset hike up The Watchman, one of the peaks along the crater's rim. I got turned around by an incoming thunderstorm. On another hike across the pumice prairie and through a burned forest, I turned around when I lost sight of the horizon with more storms in the forecast. I went down into a canyon along a mountain stream and back up, saw the pinnacles, a waterfall, and small meadow with varying degrees of wetness. Different wildflowers were growing in different areas due to elevation, soil, and moisture levels- a great example of zonation.

Some of the wildlife in the park includes Clark's nutcracker, golden mantled ground squirrels, mule deer, black bears, foxes, bobcats, and pika. I was lucky enough to see the ground squirrel, deer, gray jays, and a tiny frog.

After leaving Crater Lake, I headed to the coast and stayed at the Oregon Dunes. There was no activity at the Sea Lion Caves nearby. The next stop before going home was a quick visit to Mount Hood. I stank after a week in the woods without showers, but the adventure was worth it. This week's information comes from USGS and NPS. All photos are my own. I'll be taking a break for vacation and will return in September with a look at some hard workers, just in time for Labor Day.

Species of the Month

Introduction: World Elephant Day is next week, so to celebrate we’re profiling one of the world’s three

elephant species. In addition to the Asian elephant, did you know there are two different African

elephants? There’s the forest elephant and the more commonly known bush elephant, the August

Species of the Month.

African bush elephant (Wikipedia)

 

Scientific name: Loxodonta africana

Kingdom: Animalia (animals)

Class: Mammalia (mammals)

Order: Proboscidea (elephants)

Range: Central and southern Africa

Habitat: Savannah, forest, deserts

Lifespan: 60-70 years

Diet: Grasses, herbs, fruit, tree leaves, and tree twigs, roots, and bark

Predators: Lions, African wild dogs, hyenas, crocodiles, humans

Mother and calf (Wikimedia Commons)

Conservation Status: Elephants are listed as vulnerable on the IUCN red list. They are threatened under

the US Endangered Species Act.

Other Information: The African bush elephant is the largest land mammal in the world. An adult male

can weigh over six tons with a shoulder height of ten feet. Adult males live alone or in small groups,

while females and calves will form a larger herd led by a matriarch. Calves are raised communally

and are totally dependent on maternal care for several months. They reach full independence around

eight years old. Elephants don’t grow their tusks until after they’re a year old and the baby teeth fall

out. They also have a conveyor belt of six molars that wear out and fall out, allowing the next in line

to move forward. After losing the last molars, they can no longer eat properly. The large ears are great

for hearing, but also dissipate heat. Elephants are very mobile with a large range because of the

massive amount of food they need to eat. They can drink up to 50 gallons of water a day. Mud and

dust baths help them keep cool. Predators mainly go after small calves that fall behind the rest of the

herd. The greatest challenges facing elephants are caused by humans. Development has caused habitat

loss, and keep in mind these giants need a lot of room to roam. Poaching is also a serious threat. Most

elephants are confined to protected areas, limiting their population sizes. However, even at a protected

reserve elephants aren’t safe from poachers.

Young elephants at the watering hole (Sierra Club)

This week’s information comes from Animal Diversity Web.

Nuclear Energy

Nuclear energy harnesses the power of the atom to generate tremendous amounts of electricity
from a very small amount or fuel. This controversial source is non-renewable because there is a
finite amount of uranium, and while it produces no carbon emissions it is not “green” because of
the radioactive waste it produces.

Nuclear power plants use the heat created by splitting uranium atoms to create steam either by
boiling water or turning pressurized water into steam without boiling it. The steam turns turbines,
which generate electricity. In both boiling water and pressurized water systems the steam is
condensed back into water to be cycled again. 

Nuclear fission in action

Much of the controversy surrounding nuclear energy is a fear of what could happen. In the years
since nuclear energy plants began generating, there have been three major accidents- Three Mile
Island in 1979, Chernobyl in 1986, and Fukushima Daiichi in 2011. An example of what could go
wrong follows.

Three Mile Island was a loss of coolant accident. A mechanical failure prevented water from
reaching the reactor core to cool it. As pressure began to build in the core, a relief valve opened
as it should have, but remained stuck open when pressure returned to normal levels. Cooling
water poured out of the valve, but plant staff was unaware as instruments indicated the valve was
closed. Without correct information from instrument readings, staff incorrectly reduced the amount
of cooling water going to the reactor, which caused it to overheat. The zirconium cladding that
contained the uranium fuel pellets began to melt. A hydrogen bubble formed inside the containment
dome, raising fears of an explosion and containment breach. Pregnant women and small children
were ordered to evacuate, and there was a release of radiation (done intentionally to relieve pressure)
but not enough to cause any health issues. Plant staff resumed the flow of cooling water and were
able to reduce the hydrogen bubble. The reactor stabilized, and it was discovered that about half
of the core had melted. 

Three Mile Island. The cooling towers for the damaged
reactor are in the foreground. (Lancaster Online)

Safety has improved considerably at US plants. In fact, the costs associated with safety, security,
and permitting have become almost prohibitive to opening new plants. A plant in Tennessee will
be coming online in late 2016, over 40 years after construction began because low demand for
electricity and did not justify the cost of completing the plant until recently.

Aside from safety concerns, spent nuclear fuel is an issue no one is quite sure how to deal with.
Currently, spent nuclear fuel is stored on-site at power plants. First, it is stored in a cooling pool
for a minimum of five years. When it has cooled enough, it is encased in a concrete and steel cask.
However, the material will remain radioactive for thousands of years and a permanent location for
disposal has yet to be found. Reprocessing allows uranium and the resulting plutonium to be reused
as fuel, which cuts down on the amount of waste material but only delays the problem.

Spent nuclear fuel in a cooling pool (International Atomic Energy Agency)

One potential solution to the waste problem is transatomic power, which dissolves nuclear waste
into molten salt, would reduce the amount of spent nuclear fuel by using it again. It also has the
potential to reduce the half-life of waste, or amount of time that it takes for half of the mass to decay
and no longer be radioactive.

Another negative environmental impact of nuclear energy is the potential for radioactive release or
water pollution from tailings at uranium mines. Uranium tailings are radioactive, and may contain
sulfides that can produce acids. Tailings should be placed within an engineered dam and then back
inside the mine when operations conclude (World Nuclear Association, 2013).

After examining various methods of energy production, it has become clear that no source is
completely free of environmental impacts. The negative impacts are wide ranging, from localized
to single windmill to a global scale with fossil fuels. Fossil fuels have been widely panned for the
environmental damage they cause at a regional level for oil spills to the global climate change
linked to carbon dioxide emissions. They have been ruled out as the “greenest” energy, but what
about the others? 

Wind, solar, tidal, and geothermal appear to have the least negative environmental impacts but
can be limited by factors such as geology, topography, and weather. As technology advances, it
may be able to overcome these limitations. An ideal solution to the fossil fuel problem is to
increase their generating capacity and incorporate them into an improved and more efficient grid.
Since these sources, as well as hydroelectric, are mainly regional a better grid would blend all
electricity into a single network that can easily transfer energy to rapidly meet demand. Thus,
hydroelectric from the Pacific Northwest could supply power to Iowa when the wind stops blowing. 

So what is the “greenest” energy? It is all a matter of personal preference and an individual’s
tolerance for the different negative impacts. Bird strikes from wind energy may be a more pressing
concern for some people than fish strikes caused by tidal energy. 

This week's information comes from Duke Energy, Nuclear Regulatory Agency, Wired, Nuclear Regulatory Commission, Transatomic Power, and World Nuclear Association.