From: owner-ammf-digest@smoe.org (alt.music.moxy-fruvous digest) To: ammf-digest@smoe.org Subject: alt.music.moxy-fruvous digest V14 #5326 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, November 15 2020 Volume 14 : Number 5326 Today's Subjects: ----------------- Tense This Muscle For 1 Min To Unlock Massive Growth ["Massive Male Plus"] 9 Reasons to Use Coconut Oil DAILY (3 of them are amazing) ["Secrets of C] Do THIS And Never Wear Glasses Again ["Early Life Blindness" ] ---------------------------------------------------------------------- Date: Thu, 12 Nov 2020 08:16:28 -0500 From: "Massive Male Plus" Subject: Tense This Muscle For 1 Min To Unlock Massive Growth Tense This Muscle For 1 Min To Unlock Massive Growth http://massiveremedie.icu/rDFYK9VSK6cJOz6zMIEHlyLGDNv1ei2_q0N3aOEULd8QFrHT http://massiveremedie.icu/DZGu0se1y9VK50IRt1M5vuKKDqOLclP6os9rfbDIsTfVF5Vh loped nictitating membranes are found in fish, amphibians, reptiles, birds and mammals, but are rare in primates. In humans, the plica semilunaris (also known as the semilunar fold) and its associated muscles are homologous to the nictitating membranes seen in some other mammals and other vertebrates. In most primate species, a plica semilunaris is present, although fully developed nictitating membranes can be found in lemurs and lorisoid primates. Some mammals, such as camels, polar bears, seals and aardvarks, have full nictitating membranes, and many mammals retain a small, vestigial portion of the membrane remains in the corner of the eye. A gland of the third eyelid (nictitans gland) or Harder's gland are attached to the nictating membranes of some animals and may produce up to 50% of the tear film. Functions Common goldeneye showing the transparent nictitating membrane characteristic of diving animals The nictitating membrane of a blue shark The nictitating membrane is normally translucent. In some diving animals, including sea lions, it is activated on land, to remove sand and other debrisbits function in most animals. In crocodiles, it protects their eyes from water but also hinders their focus under water. In some diving animals, for example beavers and manatees, it is transparent and moves across the eye to protect it while under water. Birds can actively control their nictitating membrane. In birds of prey, the membrane also serves to protect the parents' eyes from their chicks while they are feeding them, and when peregrine falcons go into their 200-mile-per-hour (320 km/h) dives, they will blink repeatedly with their nictitating membranes to clear debris and spread moisture across the eyes. Woodpeckers tighten their nictitating membrane a millisecond prior to their beak impacting the trunk of a tree to prevent shaking-induced reti ------------------------------ Date: Thu, 12 Nov 2020 11:15:11 -0500 From: "Secrets of Coconut Oil" Subject: 9 Reasons to Use Coconut Oil DAILY (3 of them are amazing) 9 Reasons to Use Coconut Oil DAILY (3 of them are amazing) http://lostbook.us/kDe10dVOJDXFVzAkKPeLPH3D-DGYhZx749yF41-xrmop0DCO http://lostbook.us/XxE5rdzricInEBG6CL69rFIU1FZpsb97lhubuZDm96M2EgY grinus was first described under its current binomial name by English ornithologist Marmaduke Tunstall in his 1771 work Ornithologia Britannica. The scientific name Falco peregrinus is a Medieval Latin phrase that was used by Albertus Magnus in 1225. The specific name is taken from the fact that juvenile birds were taken while journeying to their breeding location rather than from the nest, as falcon nests were difficult to get at. The Latin term for falcon, falco, is related to falx, meaning "sickle", in reference to the silhouette of the falcon's long, pointed wings in flight. The peregrine falcon belongs to a genus whose lineage includes the hierofalcons[note 1] and the prairie falcon (F. mexicanus). This lineage probably diverged from other falcons towards the end of the Late Miocene or in the Early Pliocene, about 5b8 million years ago (mya). As the peregrine-hierofalcon group includes both Old World and North American species, it is likely that the lineage originated in western Eurasia or Africa. Its relationship to other falcons is not clear, as the issue is complicated by widespread hybridization confounding mtDNA sequence analyses. For example, a genetic lineage of the saker falcon (F. cherrug) is known which originated from a male saker producing fertile young with a female peregrine ancestor, and the descendants further breeding with sakers. Today, peregrines are regularly paired in captivity with other species such as the lanner falcon (F. biarmicus) to produce the "perilanner", a somewhat popular bird in falconry as it combines the peregrine's hunting skill with the lanner's hardiness, or the gyrfalcon to produce large, strikingly coloured birds for the use of falcon ------------------------------ Date: Thu, 12 Nov 2020 06:31:43 -0500 From: "Early Life Blindness" Subject: Do THIS And Never Wear Glasses Again Do THIS And Never Wear Glasses Again http://leakygut.buzz/Afhr7qHwUbCG67f_KoCTjaXZ71Ghhk_aX5RU18tbFemnO-2b http://leakygut.buzz/IkMlxDXzWm0vd-xcgVHmN1OXrs4Ucv6QJa1xqVKth-WMcOle aving access to the best basking site, while females are priority during a group feeding of a big kill or carcass. A good example of the hierarchy in crocodiles would be the case of the Nile crocodile. This species clearly displays all of these behaviours. Studies in this area are not thorough, however, and many species are yet to be studied in greater detail. Mugger crocodiles are also known to show toleration in group feedings and tend to congregate in certain areas. However, males of all species are aggressive towards each other during mating season, to gain access to females. Crocodiles are also the most vocal of all reptiles, producing a wide variety of sounds during various situations and conditions, depending on species, age, size and sex. Depending on the context, some species can communicate over 20 different messages through vocalizations alone. Some of these vocalizations are made during social communication, especially during territorial displays towards the same sex and courtship with the opposite sex; the common concern being reproduction. Therefore most conspecific vocalization is made during the breeding season, with the exception being year-round territorial behaviour in some species and quarrels during feeding. Crocodiles also produce different distress calls and in aggressive displays to their own kind and other animals; notably other predators during interspecific predatory confrontations over carcasses and terrestrial kills. Specific vocalisations include b Chirp: When about to hatch, the young make a "peeping" noise, which encourages the female to excavate the nest. The female then gathers the hatchlings in her mouth and transports them to the water, where they remain in a group for several months, protected by the female Distress call: A high-pitched call used mostly by younger animals to alert other crocodiles to imminent danger or an animal being attacked. Threat call: A hissing sound that has also been described as a coughing noise. Hatching call: Emitted by a female when breeding to alert other crocodiles that she has laid eggs in her nest. Bellowing: Male crocodiles are especially vociferous. Bellowing choruses occur most often in the spring when breeding groups congregate, but can occur at any time of year. To bellow, males noticeably inflate as they raise the tail and head out of water, slowly waving the tail back and forth. They then puff out the throat and with a closed mouth, begin to vibrate air. Just before bellowing, males project an infrasonic signal at about 10 Hz through the water, which vibrates the ground and nearby objects. These low-frequency vibrations travel great distances through both air and water to advertise the male's presence and are so powerful they result in the water's appea ------------------------------ Date: Thu, 12 Nov 2020 04:44:10 -0500 From: "CHW Home Warranty" Subject: Winter is coming Winter is coming http://mysheds.buzz/JLSie-n546jm9FfErIZef7ZhB_mPCsLQMgPGq1fbweU3Xqw2 http://mysheds.buzz/Gk8DmG0rN0OKmOhsQWi8xPelyxExyL8-Zdu9xcZerrg-bZVk divided into two families: 1. Typical owls or True owl family (Strigidae) and 2. barn-owls family (Tytonidae). Some entirely extinct families have also been erected based on fossil remains; these differ much from modern owls in being less specialized or specialized in a very different way (such as the terrestrial Sophiornithidae). The Paleocene genera Berruornis and Ogygoptynx show that owls were already present as a distinct lineage some 60b57 million years ago (Mya), hence, possibly also some 5 million years earlier, at the extinction of the nonavian dinosaurs. This makes them one of the oldest known groups of non-Galloanserae landbirds. The supposed "Cretaceous owls" Bradycneme and Heptasteornis are apparently nonavialan maniraptors. During the Paleogene, the Strigiformes radiated into ecological niches now mostly filled by other groups of birds.[clarification needed] The owls as known today, though, evolved their characteristic morphology and adaptations during that time, too. By the early Neogene, the other lineages had been displaced by other bird orders, leaving only barn-owls and typical owls. The latter at that time were usually a fairly generic type of (probably earless) owls similar to today's North American spotted owl or the European tawny owl; the diversity in size and ecology found in typical owls today developed only subsequently. Around the Paleogene-Neogene boundary (some 25 Mya), barn-owls were the dominant group of owls in southern Europe and adjacent Asia at least; the distribution of fossil and present-day owl lineages indicates that their decline is contemporary with the evolution of the different major lineages of typical owls, which for the most part seems to have taken place in Eurasia. In the Americas, rather an expansion of immigrant lineages of ancestral typical owls occurred. The supposed fossil herons "Ardea" perplexa (Middle Miocene of Sansan, France) and "Ardea" lignitum (Late Pliocene of Germany) were more probably owls; the latter was apparently close to the modern genus Bubo. Judging from this, the Late Miocene remains from France described as "Ardea" aureliensis should also be restudied. The Messelasturidae, some of which were initially believed to be basal Strigiformes, are now generally accepted to be diurnal birds of prey showing some convergent evol ------------------------------ End of alt.music.moxy-fruvous digest V14 #5326 **********************************************