From: owner-ammf-digest@smoe.org (alt.music.moxy-fruvous digest) To: ammf-digest@smoe.org Subject: alt.music.moxy-fruvous digest V14 #15319 Reply-To: ammf@fruvous.com Sender: owner-ammf-digest@smoe.org Errors-To: owner-ammf-digest@smoe.org Precedence: bulk alt.music.moxy-fruvous digest Sunday, January 5 2025 Volume 14 : Number 15319 Today's Subjects: ----------------- Compare cheap auto insurance in 60 seconds ["Auto Insurance Rate" Subject: Compare cheap auto insurance in 60 seconds Compare cheap auto insurance in 60 seconds http://variicose.world/IvbQ16IKP0FnzXMLLUeUdlgDsmdzOrq42l_r9KpgunIL9YRNhw http://variicose.world/F0NWlovOdY93yb7sG_HD8AFkMm4fI3XCtQuIF3UyFMojmDAI heatre (formerly Loew's Kings Theatre) is a theater and live performance venue at 1027 Flatbush Avenue in the Flatbush neighborhood of Brooklyn in New York City, New York. Designed by Rapp and Rapp as a movie palace, it opened on September 7, 1929, as one of five Loew's Wonder Theatres in the New York City area. The theater's interior decor was supervised by Rapp and Rapp along with Harold Rambusch. Owned by the New York City Economic Development Corporation, the Kings Theatre has been operated by the Ambassador Theatre Group since 2015. It is listed on the National Register of Historic Places. The Kings Theatre occupies an irregular site and is divided into two sections: the lobby section and the auditorium. The lobby section has an elaborate terracotta facade with a marquee and an arched entrance storefront. The entrance leads to a vestibule and two lobbies with high ceilings, in addition to several foyers and lounges. The auditorium has 3,250 seats on two levels, with an elaborately decorated proscenium arch, walls, and ceilings. Like the other Wonder Theaters, the Loew's Kings Theatre featured a "Wonder Morton" theater pipe organ manufactured by the Robert Morton Organ Company, though the organ has since been rem ------------------------------ Date: Sat, 4 Jan 2025 13:44:52 +0100 From: "Southwest Airlines Opinion Requested" Subject: Answer a few questions about Southwest Airlines services and earn $100 reward Answer a few questions about Southwest Airlines services and earn $100 reward http://variicose.world/mGP0p8ImRSMGxjF3jKjmFt4sWjQ7tT4FHaHQsY89DxWXU1IZ http://variicose.world/CVYKTcAG9AcXv-bw_0MuksScb880wTNVTUDyDQHZrRVVR9xUxg nded or contracted. Although color changes appear to rely primarily on vision input, there is evidence that skin cells, specifically chromatophores, can detect light and adjust to light conditions independently of the eyes. The octopus changes skin color and texture during quiet and active sleep cycles. Cephalopods can use chromatophores like a muscle, which is why they can change their skin hue as rapidly as they do. Coloration is typically stronger in near-shore species than those living in the open ocean, whose functions tend to be restricted to disruptive camouflage.:?2? These chromatophores are found throughout the body of the octopus, however, they are controlled by the same part of the brain that controls elongation during jet propulsion to reduce drag. As such, jetting octopuses can turn pale because the brain is unable to achieve both controlling elongation and controlling the chromatophores. Most octopuses mimic select structures in their field of view rather than becoming a composite color of their full background. Evidence of original coloration has been detected in cephalopod fossils dating as far back as the Silurian; these orthoconic individuals bore concentric stripes, which are thought to have served as camouflage. Devonian cephalopods bear more complex color patterns, of unknown function. Chromatophores Coleoids, a shell-less subclass of cephalopods (squid, cuttlefish, and octopuses), have complex pigment containing cells called chromatophores which are capable of producing rapidly changing color patterns. These cells store pigment within an elastic sac which produces the color seen from these cells. Coleoids can change the shape of this sac, called the cytoelastic sacculus, which then causes chang ------------------------------ Date: Sat, 4 Jan 2025 12:20:54 +0100 From: "Your Emergency Companion" Subject: Be Ready: Essential Emergency Kit Inside Be Ready: Essential Emergency Kit Inside http://variicose.world/vbup-S9rwNiNnqYYyW_J2xP427HK6-JkHtGR2eA-jg-8fp0 http://variicose.world/1xJl3xXmBclnm1PGUhExWogeFsZhC6x2m7VmL4emDjfKNsE ame dominant during the Ordovician period, represented by primitive nautiloids. The class now contains two, only distantly related, extant subclasses: Coleoidea, which includes octopuses, squid, and cuttlefish; and Nautiloidea, represented by Nautilus and Allonautilus. In the Coleoidea, the molluscan shell has been internalized or is absent, whereas in the Nautiloidea, the external shell remains. About 800 living species of cephalopods have been identified. Two important extinct taxa are the Ammonoidea (ammonites) and Belemnoidea (belemnites). Extant cephalopods range in size from the 10 mm (0.3 in) Idiosepius thailandicus to the 700 kilograms (1,500 lb) heavy colossal squid, the largest extant invertebrate. Distribution Left: A pair of cuttlefish (Sepia officinalis) in shallow water Right: An octopus (Benthoctopus sp.) on the Davidson Seamount at 2,422 m depth There are over 800 extant species of cephalopod, although new species continue to be described. An estimated 11,000 extinct taxa have been described, although the soft-bodied nature of cephalopods means they are not easily fossilised. Cephalopods are found in all the oceans of Earth. None of them can tolerate fresh water, but the brief squid, Lolliguncula brevis, found in Chesapeake Bay, is a notable partial exception in that it tolerates brackish water. Cephalopods are thought to be unable to live in fresh water due to multiple biochemical constraints, and in their >400 million year existence have never ventured into fully freshwater habi ------------------------------ Date: Sat, 4 Jan 2025 16:14:50 +0100 From: "Survival" Subject: All Medicinal and Edible Plants in the United States All Medicinal and Edible Plants in the United States http://saviorstockpile.click/S1GAdYOgHNtqN5rCrIploqVAyXXzutIuOvKfCTnVm__9THVZGg http://saviorstockpile.click/hF6eOBRoFEuDCDU0Rh4cBzITgAG907gyqvrvq8zwBgoVpD8 sult of social selection the environment of cephalopods' ancestors would have to fit a number of criteria. One, there would need to be some kind of mating ritual that involved signaling. Two, they would have to experience demonstrably high levels of sexual selection. And three, the ancestor would need to communicate using sexual signals that are visible to a conspecific receiver. For color change to have evolved as the result of natural selection different parameters would have to be met. For one, one would need some phenotypic diversity in body patterning among the population. The species would also need to cohabitate with predators which rely on vi ------------------------------ End of alt.music.moxy-fruvous digest V14 #15319 ***********************************************