@mhodges1957, please can you say, is this what it is? And I photographed a fragment underside.
For the Gold Dust Lichen (Chrysothrix candelaris), cf. inaturalist.org/observations/244827659
For the Hysterium hyalinum, cf. inaturalist.org/observations/244638387
For the Flowering Dogwood (Cornus florida) host tree, cf. inaturalist.org/observations/239092745
For the Dogwood Anthracnose Fungus (Discula destructiva: inaturalist.org/observations/239097588
Taking a stab at this. Almost went with Typhrasa gossypina, also called “wrinkled Psathyrella” but discovered may be a European species. Anyway it looks like a Psathyrella and has a quite wrinkled cap. Gills dark brown. Stipe with fibrillose veil seen on young fruit body, soon disappearing as it matures. Growing on well rotted wood. Note:Typhrasa delineata has been proposed as a new name for Psathyrella delineata according to “FG to Mushrooms of GA”. I thought I IDed this as Psathyrella delineata (common name also “wrinkled Psathyrella”) but I guess iNat defaulted to Typhrasa. Looks somewhat reminiscent of my recent observation of Psathyrella piluliformis : https://www.inaturalist.org/observations/216668229.
Updated Note. iNat taxonomy swap from Psathyrella gossipina to Typhrasa gossipina Jan 2021. "Psathyrella delineata is an American name however NA sequences fall within European gossypina & are within the morphological range of that species thus T. delineata replaced with T. gossypina July 2022".
Under white pine.
At the area of emergence of a permanent woodland spring.
On an overhanging face of exposed bedrock.
What are the orange clumps of lumps? I don't think this is it, searched hours for days & this is a wild guess.
With natural ambient daylight and with 365nm UV light
rhizines cream-colored and thyrsiform (neither flared nor branched)
- - - - - - - -
Heterodermia Key: https://sweetgum.nybg.org/images3/250/135/op6p1.pdf
- - - - - - - -
The occurrence on rock is unusual, apparently.
Under a northeast facing overhang.
Apothecia rim is smooth, entire, nearly indiscernible.
Substrate is lumps of clay on bare, finely graveled ground, with hardpan underneath. Wildflowers present in this area indicate mafic soils. The area of 1st photo is less than 1 sq inch. It rained all day today, so the pics look especially wet.
My best guesstimate; eager for your response
On a tree, Little Park
@grinnin @sammyisafuzzydog
Lichen on rock, Little Park
@grinnin, @sammyisafuzzydog
Curious if these are rabbit? Dug entrances with trampled paths around the entrances. The last photo didn't show it very well, but there were two entrances that went deep in, the photos just make it look like a dug out hole.
Found this one a couple hundred yards away: https://www.inaturalist.org/observations/199686242
Honey yellow caps with central depression, gills strongly decurrent, long wiry thin stipe with a somewhat furry tuft of brownish mycelium at the base. Growing scattered but singley on needles, cones and woody conifer debris,
For the American Sunrise (Brigantiaea leucoxantha), cf. inaturalist.org/observations/198746908
And, can anyone please identify the curly red in the lower right of the first 5 photos?
Brilliant to behold, found year 'round, easily recognized in the field, easy to identify by the combination of such a bright reddish color or red-spotted surface, reddish rhizomorphs, & characteristic red-orange staining of the substrate; here growing in a boreal area on the broken end of a fallen limb (conifer), the first photos with natural daylight, the last two photos using a 365nm UV light to show fluorescence
On mature Ilex opaca; thallus K+ red; spore muriform, 1-2/ascus, about 50x25 microns; hymenium clear, exciple striate, laterally carbonized; epihymenium orange-brown bleeding burgundy in K wet-mount
Note the presence of Tremella ramalinae in the upper right quadrant, evident in the overgrown and distorted apothecia.
Growing on a branch of Sugar Maple, Acer saccharum.
2nd photo, 9 o'clock position, a bit of the orange medulla is exposed where a pustule has been damaged
Hydrated condition, so not as deep dark brown as the desiccated condition.
On rock.
upper surface is not reticulate maculate, so not like Parmotrema simulans, again like Parmotrema hypotropum. I mention this because I was initially (and for some time) confused about what I now know are the reproductive structures of Tremella parmohypotropi.
- - - - - - - -
Edit, 24 July 2024: Observation for the lichenicolous fungus, Tremella parmohypotropi that infects/afflicts the lichen of this observation, Parmotrema hypotropum: https://www.inaturalist.org/observations/231447438
Its apothecia have been modified into large brain like structures by its lichenocolous fungal parasite, Tremella ramalinae.
On the sunshine-soaked bark of a deciduous tree growing at the water's edge; sometimes, as seen here, the disks merge (anastamose) on the thalli
[EDIT, 11 August 2023: After finding on Rocky River an example of Placynthium nigrum with only its black prothallus yet with numerous black-rimmed black-disced apothecia, yet lower down with the muddy-green thallus atop the prothallus, did I eventually realize that all my Vahliella hookerioides observations were in fact Placynthium nigrum!]
This is the only species of Vahliella with a black apothecium.
This specimen is rather desiccated. In hydrated condition the thallus is of olive-green hue. Hydrated example at same location, same day: https://www.inaturalist.org/observations/166448585
Serendipity is a curious thing.
On two separate twigs of two different trees, the same two species of lichens grew side-by-side. Happenstance is that I found both twigs within a few minutes time, close enough together that the circumstance of collocation was not lost upon me. So, I present the two twigs together despite it being against usual protocol of observation management.
Submitted for your consideration,
Pertusaria (species as yet unknown to me) on the left,
and Ochrolechia africana on the right.
At the 6 o'clock position, there appears to be an apothecium with an orange hue to the disc/cup, and a lobulate or phyllidiate rim.
Abundant pycnidia.
Hydrated condition from today's rain. Yesterday the lichen escaped my attention, so the desiccated color is presumably a dull brown or gray similar to the bark of the Loblolly Pine, Pinus taeda, branch on which it was found.
For the Parmotrema subrigidum, last photo, cf. inaturalist.org/observations/196247863
For the Frosty Saucer (Ochrolechia africana), last photo, cf. inaturalist.org/observations/196249089
For the Bumpy Rim-Lichen (Lecanora hybocarpa), last photo, cf. inaturalist.org/observations/196249093
Previously observed the flowering plant back in September. https://www.inaturalist.org/observations/182336620
31°F when I observed them this morning.
On a very old cedar fence post.
On wooden slats of an old abandoned farmhouse.
On an old fence post.
On fallen pine. Photographed them on the branch while wet and fully hydrated after a rain. Collected them and photographed later after they had fully dried.
Pale tan cap up to 13 cm, some with slight umbo, striate margin, dry, shiny, gills free, white, crowded. Stipe up to 17 cm, smooth, enlarging downward, sometimes somewhat flattened vs. round, flaring veil then collapsing on stipe . Large white saccate volva, limbus visible within. No noticeable odor. Mixed woods inc. pine & oak.
Update: Per DNA ITS Nanopore Mycota Fall Continental MycoBlitz 2023 Amanita "sp-IN07" - first record outside Indiana!
For the Speckled Blister Lichen (Viridothelium virens), cf. inaturalist.org/observations/184478877
Some type of puffball /earthball but lacking a base! Young, firm fruiting body, interior already purplish. I let it dry & added photos a week later. Thick peridium now visible in dried state but doesn't seem as warted as usual.
For this same Parasol (Macrolepiota procera) mushroom over the next two days, cf. inaturalist.org/observations/181926697 and inaturalist.org/observations/181929765
Rapid dark blue-black staining. Cap somewhat velvety, dry, 11 cm wide. Context pale yellow but very insect riddled, though speciemen is quite fresh. Pores orange, immediate dark blue-black staining, 6-8 mm deep. Stipe 8cm, yellow, non-reticulate. on soil in mixed woods
Update: Neoboletus "sp-IN03"
DNA ITS Nanpore
Have you seen a dramatic layered underside like this impressive mushroom?
With UV and then with natural light; for Chocolate Tube Slime (Stemonitis splendens) on nearby log, cf. inaturalist.org/observations/165651804
On Convallaria majalis, lily-of-the valley.
I am thinking this leaf streak is probably the result of the fungal pathogen, Aureobasidium microstictum, based on what I read here:
https://extension.psu.edu/lily-of-the-valley-convallaria-diseases
where the author says:
"Small water-soaked spots develop which later have brown streaks with yellow halos--these spots often form from the leaf tip downward. Infected leaves die prematurely."
Please everyone, bear in mind that none of my fungal pathogen IDs are based on lab work -- no microscopy and no culturing. The IDs are all based solely on the macroscopic appearance of the lesions on the plants.
As a result, many of my fungal/bacterial/viral IDs may in fact be incorrect.
I don't think I realized I was in such bad light until long after I took these photos.
This CV suggestion seems plausible.
On a fallen hardwood stick
Underside is black. Growing on Gumbo Limbo. Physcia in upper left of thallus?
On dead, weathered trunk of Pinus strobus in exposed upland habitat. ID based on reticulate upper surface with pseudocyphellae and soredia as well as tan underside, on exposed conifer substrate.
On a pine cone, unsure which species.
Most similar to Rhizoplaca glaucophana, but differs from that species in having apothecia at the central region of the thallus instead of at the thallus periphery.
On exposed bedrock in the channel of the Haw River. So far, every population I have found is located thusly, and within 50 to 100 cm of the normal flow level, but below the usual flood level.
Who can ID to species this entomopathic fungus that attacks and kills, a phenomenon that started when it invaded the grasshopper, eventually multiplying and becoming master, forcing the Zombie Grasshopper to crawl up to die as the insect-eating fungus (collectively called Zombie Fungi, for the way they infect, and ultimately kill, their hosts) matured, and then fungal stalk-like structures burst through weak points (joints) in the grasshopper’s exoskeleton and exploded out of the host, for the fungus needs the victim to take it high enough so the fungus' spores will blow in the wind and spread most efficiently, an environment favorable to their dispersal, a good spore-release position on the underside of a twig a few of feet above the ground
These parasitic fungi usually attach to the external body surface of insects in the form of microscopic spores (usually asexual, mitosporic spores, conidia); under the right conditions of temperature and (high) humidity, these spores germinate, grow as hyphae and colonize the insect's cuticle, and they bore through the exoskeleton by way of enzymatic hydrolysis (use of a specialized pressing structure called an appressorium, an organ that forms a needle-like peg pressing against the cuticle and puncturing it), reaching the insect’s body cavity (hemocoel), where the fungal cells proliferate in the host body cavity, usually as walled hyphae or in the form of wall-less protoplasts (depending on the fungus involved), and once inside, the fungus starts to grow mycelia (the vegetative part of a fungus composed of long strands of hair-like hyphae that worm their way through the insect’s innards, feeding on tissues but not killing its host, not at least yet or quickly), and the fungus can then absorb nutrients from its host and grow until a critical fungal mass develops, and then the Cordyceps moves to the insect’s head, where the fungal parasitoid forces its victim to climb to a prominent perch in a tree or shrub, causes it to clamp down tightly, and kills it, for the fungus, which has mostly consumed the insect’s inner workings by this point, prepares to reproduce, sending stem-like spikes called stroma to shoot from the victim’s body, capped by perithecia, until the insect bristles with these fungal fruiting bodies, the perithecia soon rupturing, releasing scores of windborne spores, the reason for the fungal reprogramming of the victim: to force it into a breezier location for successful spore dispersal
Our guided nature walk leader showed us a similar parasitic fungus, inaturalist.org/observations/158411706
Not the biggest leaf in the world but big (about a foot long) [Me in middle photo, to give perspective]
{Last photo: rhodendendron blooming in background, in case you are curious}
Compare to these other large-leaf native NC magnolia species: I invite you to my Observations
• Fraser Magnolia, Magnolia fraseri inaturalist.org/observations/66239567
• Magnolia fraseri var. fraseri inaturalist.org/observations/65510390
• Bigleaf Magnolia, Magnolia macrophylla inaturalist.org/observations/66184852
I helped it finish meandering across the sidewalk, so it wouldn't get stepped on and squashed.
Dominant eastern Piedmont xystodesmid (a "cherry millipede"), two color patterns (a disparity around the Deep-Cape Fear Rivers), typically with yellow paranota (lateral segmental expansions on the dorsa), a yellow middorsal spot on the anterior margin of the collum or 1st segment, and yellow middorsal spots on the caudalmost 3-5 segments (in central NC south of the Deep/Cape Fear Rivers a different, undescribed species has yellow middorsal splotches on essentially every segment).
A millipede's body is divided into 2 distinct parts, the head and the trunk. The head houses the antennae, mouthparts, & eyes (composed of ocelli, or simple eyes; usually multiple ocelli compose an eye, but certain millipede orders lack eyes entirely). The trunk is composed of several body rings. The 1st body ring (collum segment), directly behind the head, is legless, the next 4 body rings each having 1 pair of legs. All remaining body rings, save the very last few, have 2 pairs of legs. The number of the apodous body rings (lacking legs), can vary. Many millipedes have ozopores (defense glands) on the sides of most of their body rings, and produce a chemical defense exuded through these ozopores to deter predators or other curious animals.
Cropped, then full size photo
Little Park, wooded edge of power line ROW, rocky soil
Where are all my lichen friends? I love these but I just don’t know…
Growing on a tree.
On bare soil humus on a slope to a creek in mixed hardwood forest, on a warm day following rain showers. Chromelosporium fulvum has erect, septate conidiophores with an unbranched main axis bearing 7 to 12 sporogenous ampullae, the spore-bearing heads, needle-like clusters. Conidia develop simultaneously on denticles located on the surface of each ampulla. The fungus first appears as fine, white, aerial mycelium. The spores form in a few days, changing the color to light yellow or golden brown; the thick, white, fluffy mycelial edges remain. The globose conidia are lightly pigmented tan-brown and cover each ampulla at maturity. The mold, easily air-borne, is opportunistic, and not readily tolerating other organisms.
4th photo - my drinking water was poured onto the moss to allow it to hydrate
Either
At the base of a pine tree, it had recently rained.
NOTE: Desiccated and Hydrated thallus photos