Love these odes. A first at home and for the county. Showed up in front of the barn on a very foggy morning. There are lakes around that likely host this species and possibly they are checking out our pond. Wouldn't that be nice, if they decided to move in? :)
1300-1400m
Antrophogenic steppe-shrubs-degraded black pine forest mix, calcareous rocks
Crías eclosionadas en el corral de incubación del Tortugario Manzanillo
And a video here: https://www.youtube.com/watch?v=EgwCemYKrmw
Reared from Polistes sp.
In parking garage of the Marriott in Charleston*. This was on the last day of a SEAFWA conference which included many GA visitors.
Carex stipata (1), C. annectens (2), and C. vulpinoidea (3). At this site C. annectens generally was growing between a population of C. stipata and a population of C. vulpinoidea, and in some ways was morphologically intermediate between the two.
Barsine striata (Lichen Moths). Photographed at Dibang Valley Jungle Camp, Arunachal Pradesh, India on 24 April 2023.
Caterpillars on rowan (Sorbus aucuparia)
Growing in a mesic, sandy loam prairie. Calopogon tuberosus also grows around here, but in damper locations and starts flowering a couple weeks later.
My thanks to Kevin Doyle (Botanist, Wisconsin Dept. of Natural Resources) for facilitating this visit.
An endemic psyllid found only on Cryptocarya oahuensis, which has only one wild tree left.
Insecta: Lepidoptera
Oecophoridae, Stathmopodinae
Stathmopoda orbiculata
Lam Tsuen San Tsuen, Tai Po, Hong Kong.
This is the second record of this small (6mm long) moth in Hong Kong
The Stathmopodinae have a very distinctive resting posture and heavily bristled legs - an unmistakeable combination!
Note that Stathmopodinae is regarded by some taxonomists as a valid family within the Gelechioidea, and was treated as such in the overview of Lepidoptera by van Nieukirken et al., 2011
Further molecular and morphological work since this observation was posted show the stathmops as a valid family.
There was a global list / review in 2015 by Sinev....
Sinev, S. Yu., 2015. World catalogue of bright-legged moths (Lepidoptera, Stathmopodidae). Zoological Institute of the Russian Academy of Science, St. Petersburg, 84 pp.
Greenbelt Park, Prince George's County, Maryland, USA.
mid-stem leaves in comparison photo: S. flexicaulis (L), hybrid (centre), S. caesia (R). Lower stem leaves of hybrid were broader, with obvious lateral veins (see e.g., plant at bottom left of photo 1)
Growing in a depression of shitty rocky talus. Dangerous terrain nearby. 10,000'
Longwood Gardens, naturalized in a woodland.
Fruit photos taken in September 2019. The infructescences were so heavy they fell over.
SEM seed images were obtained with the assistance of Kyle Nowlin at the Joint School of Nanoscience and Nanoengineering, Greensboro, NC, USA.
Light microscope seed photos were obtained in February 2020, with the assistance of Mark Garland, USDA NRCS. Scale bar = 1 mm.
New Discovery this Hot 34deg sweltering day. Photographing the elytra was into sun . Massive gams = male morphology.
A female Giant Ichneumon wasp (Megarhyssa macrurus) oviposits into the side of a tree.
I was honored to have this observation selected as observation of the day for June 11, 2020, and again as observation of the week (week of June 21, 2020). It is covered in this blog post: A Trip to Texas Provides a Long Sought Photographic Opportunity - Observation of the Week, 6/21/20.
After finding some Willow leaves covered with tiny galls, I opened one up with a razor blade and examined the inside with a Hitachi SEM (Scanning Electron Microscope, courtesy Merritt College, Oakland, CA). I found several dozen mites inside the gall (see attached SEMicrographs). The average length of each mite was about 90um.
Depth -4.0 m
Temp 20deg
He's so cute but so hard to photograph! Whenever he rested in a perfect position, I would get ready to take a photo, but then he would decide to look away from the camera. I am not as satisfied with the photos as I had hoped (I spent literally 4 hours trying to get photos of him), but some is better than none! Unfortunately, it was windy, cold, and our friendly neighborhood cat kept following me around, so I had to continuously relocate while photographing this stubborn little guy!
She appears to be camera shy! Constantly wanted to jump on my finger and on the window!
Weird orange lichen. Cezar approved! Good for chewing
Raríssima e pouco conhecida, essa planta parasita fungos micorrízicos. São conhecidos apenas dois indivíduos que estão depositados em uma coleção cientifica do Rio. Essa é a primeira foto na natureza dessa espécie.
About 25 mm long. Matthew, I have emailed you re these.
on horse dung
Amazing things going on here. https://www.bbc.co.uk/programmes/p007vz26
Progression of nest. 1st photo: 7/10/2022, 2nd: 7/3, 3rd: 6/12, 4th: 6/9, 5th: 6/2.
increíble espectáculo de la llegada masiva de la "mariposa blanca" a El Ejido El Águila, Cacahoatán, en la zona de influencia de la Reserva de la Biosfera Volcán Tacana
Drama. These guys all normally get along pretty well, but here a squirrel decided to start something and nearly got kicked in the head as reward. Moments later they were back to munching sunflower seeds side-by-side again.
My first attempt at diatoms cleaning.
Three specimens observed, from the same sample of my previous observation https://www.inaturalist.org/observations/141202070 taken on 2022-11-05.
Stria density: 7-8 per 10 μm (center), 10-11 (extremities).
Puncta density: 11 per 10 μm.
Length 213-225 µm, width 41-44 µm.
Stigmata visible near the central nodule.
According to Diatoms of Europe vol.3 by Kurt Krammer, 2002, it looks like Cymbella peraspera:
“Valves moderately to distinctly dorsiventral, dorsal margin rather evenly arched, ventral margin with a slightly gibbous central portion. Valve ends not protracted and broadly rounded. Length (130)154-320 µm, breadth 44-52 µm, maximal length/breadth ratio about 6. Axial area moderately wide, linear, widening at mid-valve to form a shallow central area, about ¼ to nearly ⅓ of the valve breadth. Raphe slightly lateral, tape ring near proximal and distal ends, becoming filiform near the proximal and the distal ends. Proximal raphe ends with moderately large roundish central pores which are slightly ventrally deflected; terminal fissures sickle-shaped and dorsally bent. Striae throughout radiate. Puncta distinctly and more or less roundish in focus high and low. A large number of stigmata on the ventral side of the central nodule, in focus low differently shaped from the puncta, commonly distant from the middle ventral striae. Striae 5-8/10 µm, becoming up to 10/10 µm near the extremities. Puncta 7-10(11) in 10 µm.”
Leucospilapteryx venustella. Photographed in High Park, Toronto, Ontario on 24 July 2017.
on Acer negundo, prev obs.
In previous observations, it's been suggested that some of these mystery spots could be being caused by Grovesinia moricola (the new name of Cristulariella moricola), based on this paper here: https://www.researchgate.net/publication/263651079_Zonate_Leaf_Spot_of_Acer_negundo_Caused_by_Cristulariella_moricola_in_Korea/fulltext/53e9dadc0cf2dc24b3cade88/Zonate-Leaf-Spot-of-Acer-negundo-Caused-by-Cristulariella-moricola-in-Korea.pdf?origin=publication_detail
While the one image does show similar symptoms, I now think that the ones I've seen and some of the other observations in iNat aren't being caused by that species. The spots are just too small, don't turn a dark/muddy brown, aren't particularly zonate, I've seen no evidence of conidia, and it looks like there are a few other species of fungus that affect A. negundo leaves. The ones in this observation are particularly interesting because the black dots appear to be fruiting bodies.
Here's a list of other fungi possibly causing leaf spots in A negundo:
1) Cristulariella pyramidalis, apparently now called Grovesinia pyramidalis. (source:https://www.fdacs.gov/content/download/11120/file/pp113.pdf) G. pyramidalis may or may not be the same as Grovesinia moricola in this context. I can't figure out the synonymy.
2) Phyllosticta negundinis:https://naldc.nal.usda.gov/download/CAT88913039/PDF
3) Exserohilum rostratum: https://apsjournals.apsnet.org/doi/10.1094/PDIS-07-20-1424-RE
from https://www.indiananature.net/pages/taxa/Plantae/a/Acer_negundo.php:
4) Phyllosticta minima
5) Rhytisma punctatum
6) Cylindrosporium negundinis
7) Septoria negundinis
8) Cercospora negundinis
A little story about this fly: https://dipterists.org/assets/PDF/flytimes071.pdf