After the Rain!

Morel - Morchella esculenta

After we got 8 inches of rain a few weeks ago, some Morel mushrooms popped up on our property, like they do every Spring! Mushrooms aren't flowers, but they are the fruiting body (spore producing organ) of a fungus. Morels are unique mushrooms, in that they appear in the spring rather than the fall. They are a type of sac fungi that aren't that common! Sac fungi get their names from the fact that they produce their spores, called ascospores, in special pods or sac-like structures called asci. In other words, the spores are found on the walls of the honey-combed exterior.

Morel - left over Morel stems - Morel

Morchella esculenta

They are quite difficult to see as they are SO camouflaged with their surroundings. Once you find one, the rest suddenly become visible! A few days later I went back and three of them had been eaten, with only their stems remaining! Many wild critters eat mushrooms, including deer and flying squirrels!

Braun's Giant Horsetail sporangiophores - Equisetum telmateia ssp. braunii

Horsetails!

To my delight I came across a patch of Braun's Giant Horsetails with many sporophytes this week! They were a lovely surprise! Horsetails have been around a long time, and are considered "living fossils"! During the Devonian period, approximately 3,500 years ago, they were as thick as forests and as big as trees! 

Braun's Giant Horsetail fertile and infertile stems 

Equisetum telmateia ssp. braunii 

Horsetails are actually classified as ferns!  Like ferns, mushrooms, and mosses, horsetails reproduce via spores not seeds and do not have flowers.  They can also reproduce directly from underground rhizomes.  This particular species is dimorphic, with infertile vegetative stems that are green and photosynthetic, and fertile stems that are brown and not photosynthetic, but do produce strobili (a structure resembling the cone of a conifer) covered with sporangiophores that produce spores. 

Horsetails are also called "Scouring Rush", because pioneers used them to scrub pots and pans. Their hollow, jointed, ridged stems have silica in their cells which makes them tough!

Horsetail Life Cycle - ©Deposit Photo

The following information, from https://sciencing.com/horsetail-s-life-cycle-5673810.html, explains part of the horsetail life cycle.

"Spore-Producing Phase:  Spore cases form small to large cones (strobili) on the stems of the plant. The spores themselves are dispersed by the wind. If they land in a wet or damp place, they can germinate and grow into tiny plants called gametophytes.

Gametophytes:  The gametophyte grows two different structures, one holding female gametes in tiny cups and the other holding male gametes equipped with tails to aid in movement. This phase of the horsetail's life cycle, known as gametophyte generation, exists to ensure genetic diversity.

Fertilization:  Horsetails rely on rain for fertilization. The arrival of rain releases the male gametes, which then swim to the cups holding the female cells. The embryos grow to form the stem-like structure that characterizes the mature horsetail."

Common Horsetail strobili (5/5/21) - Equisetum arvense 

I posted my recent photos of the horsetails on inaturalist.org and a member identified them as Braun's Giant Horsetails!  I had originally thought they were Common Horsetails, which I had seen last year in a different area (see above photo)!  They are really quite different!  How wonderful to have such an incredible online resource!  It also turns out that there wasn't a record of Braun's Giant Horsetails in Sierra County, on calflora.org, so I posted my photos there as well!  How exciting!

Sierra Alligator Lizard - Elgaria coerulea palmeri

Herptile Report!

The word "herptile" encompasses both reptiles and amphibians.  Amphibians and reptiles are "ectotherms".  They cannot produce sufficient internal heat to maintain a constant body temperature, and their mobility is subject to the surrounding temperature.  Reptiles prefer temperatures between 80°-95°, whereas amphibians prefer it slightly cooler with temperatures between 75°-85°.  So, with the temperatures consistently warmer now, lizards, frogs and snakes are becoming increasingly active!   

We saw the Sierra Alligator Lizard pictured above in my neighborhood one chilly morning this week. It was so cold that it couldn't move! We moved it off the road and into some protective shrubs in the sun, so that it could warm up! 

Northwestern Fence Lizard (light phase) - Sceloperus occidentalis occidentalis

I also saw lots of lizards this week down in Canyon Creek. Mainly they were patterned in brown, rust, and beige zigzags. Others were an overall solid dusty black in color. It turns out that they might be the same kind of lizard, the Northwestern Fence Lizard! When fence lizards are cold they don't display patterns or colors, and appear mainly black! Males have distinctive blue patches on the sides of their belly and throat. These blue patches are faint or absent on females.

Tadpoles - Rana sp.

The Roadside Ditch I've been reporting on is now jam-packed with tadpoles!  More than I've ever seen before!  Most of them are pretty tiny, but there are some big ones as well!  It takes about 14 weeks for tadpoles to mature!!!  The ones pictured above are about a month old.  

Just in case you were wondering, polliwogs/pollywogs and tadpoles are different words for the same thing. Both words refer to the larval stage of both frogs and toads. 

Unknown frog - Sierra Gartersnake (Western Aquatic Gartersnake)

Rana sp. - Thamnophis couchii

This week I hiked up the creek I explored about a month ago, and the water was cascading down the creek bed and there was a frog in one of the bedrock pools! It was beautiful!  I also saw a couple of snakes in our neighborhood, a Sierra Gartersnake and a Mountain Gartersnake.

Mountain Gartersnake - Thamnophis elegans elegans

The Sierra Gartersnake is mainly aquatic, but both snakes can be found on land. The Sierra Gartersnake eats fish, frogs, tadpoles, and salamander larvae. The Mountain Gartersnake eats slugs, leeches, snails, and earthworms; fish; amphibians - tadpoles, frogs, (and probably salamanders); snakes and lizards; birds; and small mammals such as mice and voles.

Two-stabbed Lady-beetle and Aphids

Insect Update!

Insects are really active now, with the warmer weather happening.  I came across these Lady-beetles eating aphids on a willow one morning this week!  Each one was different from the others!  

Unknown Lady-beetle - Two-stabbed Lady-beetle - Rathvon's Forest Lady-beetle

unknown genus - Chilocorus stigmata - Anatis rathvoni  

There are a wide variety of Lady-beetles.  The ones I usually write about are the Convergent Lady-beetles, that are red with black spots, that converge in the fall by the thousands, to mate and overwinter. The ones pictured above I commonly see in our neighborhood, but usually just a few at a time.

Alfalfa Looper Moth - White-lined Sphinx Moth

Autographica californica - Hyles lineata

Right now there are LOTS of Alfalfa Looper Moths in our neighborhood feeding on flower nectar.  I don't remember ever seeing them before!  They are called "loopers" because the caterpillars form a loop-like shape when the walk (maybe like an Inch Worm?).

The White-lined Sphinx Moths I haven't seen for several years!  They usually show up just when the Bleeding Hearts are in bloom!  I was so glad to see one in our garden again!  These moths are quite large and so beautiful!

Hummingbird Moth/Bumblebee Sphinx Moth - Hemaris diffinis

Another large, unusual, and uncommon moth that showed up in our garden this week is a Hummingbird/Bumblebee Sphinx Moth!  I see them once in a while in our garden. Their clear wings beat so fast, it's almost impossible to see them!  The following information on this moth is from the website https://www.fs.fed.us/wildflowers/pollinators

"Perhaps one of the most delightful insect visitors to your garden is the hummingbird moth. Several species of the genus Hemaris deserve this name and for very good reason. They fly and move just like hummingbirds. Like them, they can remain suspended in the air in front of a flower while they unfurl their long tongues and insert them in flowers to sip their nectar. They even emit an audible hum like hummingbirds.

Like the majority of moths and butterflies, the adult hummingbird moths feed on nectar from a variety of flowers, but their larvae need more specific food plants, such as several species of honeysuckle, dogbane, or some members of the rose family such as hawthorn, cherries, and plums.

The females entice the males with an aroma or pheromone that they produce from glands at the tip of the abdomen. After mating, they lay their tiny, round, green eggs on their larval food plants, usually on the underside of the leaves. The caterpillars have a horn at the rear end and are commonly green, well camouflaged among the leaves. When they are fully-grown they drop to the ground, spin a loose cocoon and pupate, partially protected by leaf litter. That leaf litter so hated by some gardeners provides a shelter to this beautiful pollinator. In the north, where the season is short there is only one generation per year; the pupa spends the whole winter well hidden and the adult does not emerge until the next spring."

Western Spring Beauty in the Rain - Claytonia lanceolata

Damp Earth Art

No rainfall happened this week.  However, the 8" of rain we got over the previous two weeks, has brought our "water year" total to approximately 52"! Yes!!! Please join me in my continuing hope for precipitation! Perhaps our collective efforts may help it happen. I'm going to keep posting rain inspired writings, art, etc. on my blog at dampearthart.blogspot.com. Any submissions would be greatly appreciated.

Wishing for peace in Ukraine and

an immediate end to this senseless war!

Where are the Bear and the Deer?

What songbirds have recently arrived?

What's happening in the Lakes Basin?

Check back next week for the answers to these questions and more!

Unfortunately, you can no longer sign up to get my blog via email. Just go to northyubanaturalist.blogspot.com directly. It looks better than the emailed version!

Your questions and comments are greatly appreciated. Please feel free to email me at northyubanaturalist@gmail.com. Thanks! 

A Bejeweled Blog!

Leaf Beetle - Chrysomelidae Family

Iridescent Beetles

This week I spotted two of these tiny (1 cm) beetles on a Silk Tassel Bush! They didn't look like anything in my field guide, so I posted them on bugguide.net. Right away they were identified as Leaf Beetles, in the Chrysomelidae Family. Their brilliant, metallic, blue-green color was amazing!!! It made me wonder what causes this iridescence, or "luminous colors that seem to change when seen from different angles." It occurs naturally in some beetles, some butterflies, and some birds. The color is not from pigment, but rather from structure. Interestingly, the color works as camouflage, not as warning to a predator or as an advertisement for a mate!

Leaf Beetle - Chrysomelidae Family

The following information from http://www.webexhibits.org/ explains how this coloration works.

"The epicuticle, or outermost surface, of iridescent beetles is made of many stacks of slanting, plate-like layers, which are oriented in different directions. These layers bend, and then reflect the incoming light in the same way as the ridges of iridescent butterfly and moth scales. A layer of pigment below the refractive plates of beetles and the ridges of iridescent butterfly scales enhances the effect of the iridescence. In some species, the epicuticle acts as a reflection diffraction grating to cause iridescence. 

Most insect structural colors are in the green-blue-violet range, but red, gold, and copper colors may also be produced in this way. The shade of color and its intensity are determined by several factors, including the thickness and spacing of the layers of the scales, or epicuticle, the number of these layers, and the angle of the incoming light."

The following information from 

https://indianapublicmedia.org/amomentofscience 

explains how this coloration works as camouflage!

"Some beetles have beautiful, shiny carapaces [hard outer shell] that look like metal, or a jewel. That shininess is called iridescence. It's caused when tiny structures in the carapace interfere with certain wavelengths of light, so that different colors are seen from different angles.

It’s actually fairly common in insects, and the feathers of some birds, too. Beetles don't use the bright, shiny colors to attract a mate, because in most species iridescence is found in both sexes and during non-reproductive stages of the insect's life. Neither is irridescence used as a kind of warning to predators, because most iridescent beetles aren't poisonous.

The best experiment would be to test whether predators are better at finding iridescent of non-iridescent targets, which is what they did next. They took the wing cases of iridescent and non-iridescent beetles and baited them with a tasty mealworm. They put out more than 800 targets like this in a wooded area.

Birds found and ate 85 percent of the non-iridescent targets, but only 60 percent of the iridescent ones. Humans also found the iridescent targets harder to find. The iridescent targets were especially hard to find on glossy leaves. So, as unlikely as it may seem, iridescence is an effective form of camouflage."

Anna's Hummingbird (male) flexing it's tail and wings! - Calypte Anna

"Joyas Voladoras" - Flying Jewels

This week some Anna's Hummingbirds showed up, with the males displaying their amazing, metallic, iridescent colors!  Iridescence in hummingbirds is structurally different than iridescence in beetles.  Their iridescence is formed in the bubbles found in their pigment producing melanosomes!  What??? An article posted below explains this process.  Before you read it, I wanted to share part of an essay that one of my favorite authors, Brian Doyle, wrote about hummingbirds.  Just Google "Joyas Voladoras" by Brian Doyle to read the whole essay, it's beautiful! 

"Consider the hummingbird for a long moment. A hummingbird’s heart beats ten times a second. A hummingbird’s heart is the size of a pencil eraser. A hummingbird’s heart is a lot of the hummingbird. Joyas voladoras, flying jewels, the first white explorers in the Americas called them, and the white men had never seen such creatures, for hummingbirds came into the world only in the Americas, nowhere else in the universe, more than three hundred species of them whirring and zooming and nectaring in hummer time zones nine times removed from ours, their hearts hammering faster than we could clearly hear if we pressed our elephantine ears to their infinitesimal chests."

                                                                                        by Brian Doyle

Anna's Hummingbird (male) - Calypte Anna

The following information at https://www.sciencedaily.com explains how iridescent colors occur in hummingbirds.

"Hummingbirds are some of the most brightly-colored things in the entire world. Their feathers are iridescent -- light bounces off them like a soap bubble, resulting in shimmering hues that shift as you look at them from different angles. While other birds like ducks can have bright feathers, nothing seems to come close to hummingbirds, and scientists weren't sure why. But a new study in Evolution shows that while hummingbird feathers have the same basic makeup as other birds', the special shape of their pigment-containing structures enables them to reflect a rainbow of light.

All birds' feathers are made of keratin, the same material as our hair and nails, and they're structured like tiny trees, with parts resembling a trunk, branches, and leaves. The "leaves," called feather barbules, are made up of cells that contain pigment-producing organelles called melanosomes. We have melanosomes too -- they produce the dark melanin pigment that colors our hair and skin. But pigment isn't the only way to get color. The shape and arrangement of melanosomes can influence the way light bounces off them, producing bright colors.

In birds, you get layers of melanosomes, and when light bounces off the different layers, we see bright colors.

But even among birds, hummingbird melanosomes are special. Ducks have log-shaped melanosomes without any air inside, but hummingbirds' melanosomes are pancake-shaped and contain lots of tiny air bubbles. The flattened shape and air bubbles of hummingbird melanosomes create a more complex set of surfaces. When light glints off those surfaces, it bounces off in a way that produces iridescence."

Orb Weaver Web showing iridescence

Iridescent Spider Webs

Before the rains, I saw lots of spider webs in the forest this week.  Often they were shimmering and iridescent. The following information from https://gizmodo.com explains how iridescence forms in spiderwebs.

"What we're seeing is the result of diffraction. A strand of spiders silk is only two to three times the size of a wavelength of visible light, so the two interact significantly. When a wave of light hits the web, it gets scattered in many different ways. The wave moves around the web, or it gets reflected by the web, or it sometimes moves through the material of the web. Exactly what happens depends on the angle of the light, the thickness of the specific strand of web, and the slight imperfections in the surface in the strands of the web."

Scarlet Fritillarly - Fritillaria recurva

Damp Earth Art

Over the past two weeks, we've received over 8" of rain!!! WOW!!! What a miracle!  Everything is bejeweled and sparkling with raindrops!  Such amazing beauty!  Here are some of the jewels I found in the forest!  Enjoy!

Sky Lupin up close - Lupinus nanus

 Please join me in my continuing hope for precipitation! Perhaps our collective efforts may help it happen. I'm going to keep posting rain inspired writings, art, etc. on my blog at dampearthart.blogspot.com. Any submissions would be greatly appreciated.

North Yuba River - October 2021 and April 2022

The river picked up quite a bit these past two weeks!  The current flow rate is 2,400 cfs (cubic feet per second), and the height is 6.5'!  The last time I checked out the measurements was in January, 2022, and the flow rate was 445 cfs and the height was 3.5'!! Yahoo!! 

Wishing for peace in Ukraine and

an immediate end to this senseless war!

Wild Turkeys (female - male) - Meleagris gallopavo

Just before the storms arrived, we were up in the Lakes Basin and to our total surprise we came across a pair of Wild Turkeys!!!  We've never seen any Turkeys in the Lakes Basin before, although I've since read that it's not that unusual.  It probably snowed a few feet up there this past week.  I wonder if the Turkeys survived.  Fingers crossed!

Where are the Bear and the Deer?

What's happening in the roadside ditch?

What songbirds have recently arrived?

Check back next week for the answers to these questions and more!

Unfortunately, you can no longer sign up to get my blog via email. Just go to northyubanaturalist.blogspot.com directly. It looks better than the emailed version!

Your questions and comments are greatly appreciated. Please feel free to email me at northyubanaturalist@gmail.com. Thanks!

Earth Day!

Blossoms, Bugs, and Birds!

Scarlet Fritillary - Fritillaria recurva

With the temperatures warming up and the days getting longer, birds are arriving, widlflowers are blooming, and bugs are buzzing!  There's so much going on!  The wildflowers are attracting a variety of pollinators.  Are they attracted to the color, the scent, or the flavor of the flower nectar?  The answer isn't that simple!  Read on to discover how the pollination process works!

Scarlet Fritillary - Fritillaria recurva

Some flowers are scented while others have dazzling patterns and colors.  This extraordinarily beautiful Scarlet Fritillary doesn't have a fragrance but its eye-popping checkerboard pattern attracts many pollinators. What we see isn't necessarily what an insect or bird sees when it looks at a flower.  In fact most insects, except for butterflies, can't see the color red, but birds can!  For instance, while I was photographing this Scarlet Fritillary a hummer briefly fed on a blossom!  

Insects smell with their antennae, or feet, or other body parts!  However, birds don't have noses and, except for vultures, don't have a sense of smell. 

Both insects and birds have a sense of taste.  They can taste salty, sweet, bitter, and sour flavors, but prefer sweet tasting food. (This taste preference doesn't apply to Raptors, Seabirds, Ducks, etc.)

 

Applegate's Paintbrush - Anise Swallowtail on Scarlet Fritillary - Mountain Jewelflower  

Castelleja applegatei - Papilio zelican on Fritillaria recurva - Streptanthus toruosus

Butterflies are attracted to color, 

flavor, and fragrance!

A butterfly's antennae, palps, legs and many other parts of the body are studded with sense receptors that are used to smell. The sense of smell is used for finding food (usually flower nectar), and for finding mates (the female smelling the male's pheromones).

A butterfly's feet have sense organs that can taste the sugar in nectar, letting the butterfly know if something is good to eat or not. Some females also taste host plants (using organs on their legs) in order to find appropriate places to lay their eggs. These receptors (called chemoreceptors) are nerve cells on the body's surface which react to certain chemicals. 

The following information on butterfly color-vision is from

https://schoolofbugs.com/can-butterflies-see-color/.

"It is believed butterflies sense colors better than any other species. Scientists have studied butterflies and their vision for long enough to determine that not only can butterflies see color, but that they can experience it way better than we can.

Humans, like most species, have three types of photoreceptors. Each one for a different primary color: Red, green and blue. Butterflies can have up to fifteen different types of photoreceptors. And each one might fire up for a color we know (for example, three of them might work to perceive the color green and other two for blue) and others might be there for colors we’ll never get to see. This means a butterfly not only sees color, but they perceive more colors than we do and they do it better than us. Scientists believe their sight evolved this way as butterflies are extremely dependent on their vision for almost everything: from feeding to sex to survival. How well they can perceive their environment is crucial for a butterfly’s existence.

Not all butterflies see color in the same way. Their vision range varies almost as much as how many butterfly species there are. Even though they might all look familiar to us, there are over 17,000 butterfly species in the world right now. And they each experience the world differently!"

©Dr. Klauss Schmitt, Worheim, Germany,uvir.eu.

Here's an example of what a flower looks like in Human vision, ultra-violet light, butterfly vision, and bee vision!  Pretty amazing!

Following are some photos of the insects (especially butterflies), birds, and wildflowers I saw this week!  Enjoy!

Woodland Star - Acmon Blue Butterfly on Limnanthes sp. - California Saxifrage  

Lithophragma parviflorum - Plebejus acmon on Limnanthes sp.

Micranthes californica

Variable Checkerspot Butterfly on Purple Milkweed 

White-lined Sphinx Moth on Pacific Bleeding Hearts

Euphydryas chalcedona on Asclepias cordifolia

Hyles lineata on Dicentra formosa

Propertius Duskywing Skipper on Blue Dicks - Blue Dicks - Hansen's Larkspur 

Erynnis propertius on Dichelostemma capitatum - Dichelostemma capitatum

 Delphinium hansenii

Valley Tassels - Margined White Butterfly on Forget-me-Nots - Meadowfoam(?)

 Castelleja attenuata - Pieris marginalis on Myosotis sp. - Limnanthes sp. (?)

Anna's Hummingbird on unknown Clarkia - Caliope Hummingbird on Bleeding Hearts

Calypte anna on Clarkia sp. - Stellula calliope on Dicentra formosa

Birds are attracted to color and flavor! 

Birds, especially Hummingbirds, are also important pollinators.  There are 2,000 bird species world wide that feed on nectar, the insects, and the spiders associated with nectar bearing flowers. Ornithophily, or bird pollination, is the pollination of flowering plants by birds.

Humans have 9,000 to 10,000 taste buds on their tongues.  Birds have 24-500 taste buds, located on the roof and floor of their mouth, and on the back of their tongue.  They can differentiate between sweet, sour, salty, and bitter tastes, but mainly prefer sweet flavors (except Raptors, sea birds, ducks etc.).

As mentioned above, birds don't have noses and, except for vultures, don't have a sense of smell. 

Birds see many more colors than humans. Humans can see red, blue, and green, and colors and shades made from combinations of these. Birds, however, are able to perceive the familiar rainbow of colors we know and parts of the ultraviolet(UV) spectrum that we can’t see. The following information is from the website at https://northamericannature.com/can-birds-see-color/.

"Bird vision is also sharper than humans. Birds can distinguish small differences between similar shades, so they can see colors that we can’t. Birds generally have four types of cones in their eyes instead of three like humans, and they perceive color differently. Not all birds have four cones, but birds normally have more cones in their retinas than humans and other mammals.

Each cone in the retina has a drop of oil in it. This oil filters out different colors, allowing the birds to see different shades, much like a camera filter. The oil is either transparent, pale, or red, or yellow and gives them greater contrast between colors. This helps birds filter out leaves, bushes, and trees to find their prey, and can even help them find fish in deep water. Mammals, including ourselves, do not have this oil in their eyes.

Eagles see through a yellow filter from the yellow oil. This allows them to see subtle and small shifts in their vision, such as a vole in the distance easier as it shows the outlines clearer

Humans can see one nonspectral color, purple. We can see purple when our blue and red cones are stimulated. Scientists believe that birds can see up to five: purple, ultraviolet and purple ultraviolet and green, ultraviolet and red, and ultraviolet and yellow."

Here's an example of human vision versus bird vision that I got off the internet.  

(There wasn't any copyright listed for these photos!)

Bumble Bee on Sierra Currant - Small Bee Fly - Ceratina unknown sp. on Creeping Sage

Bombus bifarius on Ribes nevadense - Bombylius lancifer 

Ceratina unknown sp. on Salvia sonomensis

Insects are attracted to fragrance, 

flavor, and color!

Insects "smell" with their antennae, to detect food and the pheromones of potential mates.  

They taste with specialized structures associated with their mouths called "maxillary palps", and also sometimes with their feet or other body parts.  They can differentiate between salty, sweet, bitter, and sour flavors, but mainly prefer sweet flavors. 

The following information about insect color vision is from the website at https://schoolofbugs.com/can-insects-see-in-color-lets-find-out/.

"Insects do not see all the colors. Some insects can only see two colors, for example, flies only see ultraviolet and green. Bees can perceive ultraviolet, blue and yellow. In any case, insects are not able to perceive the color red. Bees have some of the best eyesight in the insect kingdom, they can see three colors and a lot of detail. Butterflies also have great color visions, perceiving millions of subtle variations in light frequency. Ants can also see three colors and are capable of seeing in the dark. Flies can only see two colors. Some insects can’t even see ultraviolet, while others perceive more colors than us. In conclusion, insects all perceive color differently than we do, but they also differ widely from one another."

unknown beetle on Globe Gilia - Checkered Clerid Beetle on Brodiaea sp. 

Elderberry Beetle on wild onion 

unknown sp. on Gilia capitata - Trichodes ornatus on Brodiaea sp.

 Desmocerus auripennis on Allium sp.

The following information is from http://ucanr.edu/sites/PollenNation/.

"Beetles make up the largest group of pollinating animals because there are so many of them! They are responsible for pollinating 88% of the 240,000 flowering plants around the world! Research has shown that beetles are capable of seeing color, but they mainly rely on their sense of smell for feeding and finding a place to lay their eggs. Beetles are attracted to spicy, fruity, or rancid flesh-like odors."

Sky Lupine - Naked Broom-rape - unknown Clerid beetle on Blue Dick

Lupinus nanus - Orobanche uniflora - unkown Clerid beetle on Dichelostemma capitatum

House Wren in the Rain - Troglodytes aedon

Damp Earth Art

We got several days of cold wet weather this week, with a total precipitation of 3.2" by Friday afternoon. Yahoo!!! It was a marvelous, heavy, normal rainfall! More rain is forecasted for the coming weekend and next week as well!  Please join me in my continuing hope for precipitation! Perhaps our collective efforts may help it happen. I'm going to keep posting rain inspired writings, art, etc. on my blog at dampearthart.blogspot.com. Any submissions would be greatly appreciated.

Wishing for peace in Ukraine and

an immediate end to this senseless war!

Upper Sardine Lake - 4/6/22

What's going on in the Lakes Basin?

What songbirds have recently arrived?

Check back next week for the answers to these questions and more!

Unfortunately, you can no longer sign up to get my blog via email. Just go to northyubanaturalist.blogspot.com directly. It looks better than the emailed version!

Your questions and comments are greatly appreciated. Please feel free to email me at northyubanaturalist@gmail.com. Thanks!