From: owner-ammf-digest@smoe.org (alt.music.moxy-fruvous digest) To: ammf-digest@smoe.org Subject: alt.music.moxy-fruvous digest V14 #11781 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 Monday, July 10 2023 Volume 14 : Number 11781 Today's Subjects: ----------------- AMAZON removing natural weight loss remedies ["Biggest Loser" Subject: AMAZON removing natural weight loss remedies AMAZON removing natural weight loss remedies http://wholefods.today/DCcM_zl9ONkYzXOIrOJiipU0hS2fYlgp7d-DRg-GebR68-sTOQ http://wholefods.today/g3IELQ17XWtkwsvaaGZbBBRQaq3MclrQu_Og96KILb1Sev2-gQ The sensory-bias hypothesis states that the preference for a trait evolves in a non-mating context and is then exploited by the less choosy sex in order to obtain more mating opportunities. The competitive sex evolves traits that exploit a pre-existing bias that the choosy sex already possesses. Following this hypothesis, increased selectivity for one of these specific traits can explain remarkable trait differences in closely related species because it produces a divergence in signaling systems which leads to reproductive isolation. Sensory bias has been demonstrated in guppies, freshwater fish from Trinidad and Tobago. In this mating system, female guppies prefer to mate with males with more orange body-coloration. However, outside of a mating context, both sexes prefer animate orange objects, which suggests that preference originally evolved in another context, like foraging. Orange fruits are a rare treat that fall into streams where the guppies live. The ability to find these fruits quickly is an adaptive quality that has evolved outside of a mating context. Sometime after the affinity for orange objects arose, male guppies exploited this preference by incorporating large orange spots to attract females. Another example of sensory exploitation is the case of the water mite Neumania papillator, an ambush predator which hunts copepods (small crustaceans) passing by in the water column. When hunting, N. papillator adopts a characteristic stance termed the "net stance": its holds its first four legs out into the water column, with its four hind legs resting on aquatic vegetation; this allows it to detect vibrational stimuli produced by swimming prey and to use this to orient towards and clutch at prey. During courtship, males actively search for females; if a male finds a female, he slowly circles around the female whilst trembling his first and second leg near her. Male leg-trembling causes females (who were in the "net stance") to orient towards and often to clutch the male. This does not damage the male or deter further courtship; the male then deposits spermatophores and begins to vigorously fan and jerk his fourth pair of legs over the spermatophore, generating a current of water that passes over the spermatophores and towards the female. Sperm-packet uptake by the female would sometimes follow. Heather Proctor hypothesised that the vibrations made by trembling male legs mimic the vibrations that females detect from swimming prey. This would trigger the female prey-detection responses, causing females to orient and then clutch at males, mediating courtship. If this was true and males were exploiting female predation responses, then hungry females should be more receptive to male trembling. Proctor found that unfed captive females did orient and clutch at males significantly more than fed captive females did, consistent with the sensory exploitation hyp ------------------------------ Date: Sun, 9 Jul 2023 06:32:04 +0200 From: "[Daily poops|Stuck poop|Clogged bowels|Clogged colon|Cant poop}spin]]" Subject: POOP problems? (try this for perfect poops) POOP problems? (try this for perfect poops) http://pfizerz.today/RwuJMbp3z8AHM6uX_EUMJCGPoVuR4lv5MJOd8RxduCc7BdjN http://pfizerz.today/k5FyPw9uo456jtYT-foD7TczfolnoTKUdWJJYmi35EflpgRc9Q Dinosauromorphs appeared putatively around 242 to 244 million years ago by the Anisian stage of the Middle Triassic, splitting from other ornithodires. Early Triassic footprints reported in October 2010 from the ?wi?tokrzyskie (Holy Cross) Mountains of Poland may belong to a dinosauromorph. If so, the origin of dinosauromorphs would be pushed back into the Early Olenekian, around 249 Ma. The oldest Polish footprints are from a small quadrupedal animal named Prorotodactylus, but footprints belonging to the ichnogenus Sphingopus that have been found from Early Anisian strata show that moderately large bipedal dinosauromorphs had appeared by 246 Ma. The tracks show that the dinosaur lineage appeared soon after the Permian-Triassic extinction event. Their age suggests that the rise of dinosaurs was slow and drawn out across much of the Triassic. The oldest known dinosauromorph is Asilisaurus, a silesaurid which may have lived as early as the Anisian age of the middle Triassic period, about 245 million years ago, although it is possible that Nyasasaurus is a dinosaur of the same age, pushing the origins of the groups back further. Putative basal dinosauromorphs include Saltopus, Marasuchus, the perhaps identical Lagosuchus, the lagerpetid Lagerpeton from the Ladinian of Argentina and Dromomeron from the Norian of Arizona, New Mexico, and Texas (all in the United States), Ixalerpeton polesinensis and an unnamed form from the Carnian (Santa Maria Formation) of Brazil, and the silesaurids, which include Silesaurus from the Carnian of Poland, Eucoelophysis from the Carnian-Norian of New Mexico, Lewisuchus and the perhaps identical Pseudolagosuchus from the Ladinian of Argentina, Sacisaurus from the Norian of Brazil, Technosaurus from the Carnian of Texas, Asilisaurus from the Anisian of Tanzania, and Diodorus from ------------------------------ Date: Sun, 9 Jul 2023 08:40:33 +0200 From: "Dead kidneys?" Subject: If you're diabetic or even pre-diabetic you still have time. If you're diabetic or even pre-diabetic you still have time. http://mysolarcost.today/tPunCjB1C2Ye83uY5GbYfRhS3zLZs_d6Zzqd8Mu4E__FzCC3qA http://mysolarcost.today/JulL-4PWJQ2iaiGRJqBlFvv2REtldIur-gbuhtd2U23EpyUf6Q The ChaC1ares formation is the lowermost stratigraphic unit of the Agua de la PeC1a Group, overlying the Tarjados Formation of the Paganzo Group, and underlying the Los Rastros Formation. Though previously considered Ladinian in age, U-Pb dating has determined that most or all of the ChaC1ares Formation dates to the early Carnian stage of the Late Triassic. The ChaC1ares Formation has provided a diverse and well-preserved faunal assemblage which has been studied intensively since the 1960s. The most common reptiles were proterochampsids (Chanaresuchus, Tropidosuchus, and Gualosuchus), which lived alongside true archosaurs such as Lewisuchus, Lagerpeton, Marasuchus, Gracilisuchus, and Luperosuchus. Cynodonts were abundant, represented by the medium-sized traversodontid Massetognathus, as well as smaller carnivores such as Chiniquodon and Probainognathus. The largest animal in the ecosystem was the giant dicynodont Dinodontosaurus. An older faunal assemblage, distinguished by the large erpetosuchid Tarjadia, has been discovered in the earliest part of the formation. The formation as a whole is considered one of the best sources of Carnian-age tetrapods in South America, along with the slightly youn ------------------------------ Date: Sun, 9 Jul 2023 06:42:25 +0200 From: "Buffalo Wild Wings Shopper Gift Opportunity" Subject: Congratulations! You can get a $50 Buffalo Wild Wings gift card! Congratulations! You can get a $50 Buffalo Wild Wings gift card! http://wholefods.today/LLBzBzMWnGrQqElNEJTtLKH5EFGygk2qTmmOOLS-dF85rUmoaw http://wholefods.today/Fa_yK_MGhLlBmftrYcq5qaPfloDyPJSB3G8Fy_f9nU3h3IRM3Q to adults. Animals with indirect development such as insects, amphibians, or cnidarians typically have a larval phase of their life cycle. The larva's appearance is generally very different from the adult form (e.g. caterpillars and butterflies) including different unique structures and organs that do not occur in the adult form. Their diet may also be considerably different. Larvae are frequently adapted to different environments than adults. For example, some larvae such as tadpoles live almost exclusively in aquatic environments, but can live outside water as adult frogs. By living in a distinct environment, larvae may be given shelter from predators and reduce competition for resources with the adult population. Animals in the larval stage will consume food to fuel their transition into the adult form. In some organisms like polychaetes and barnacles, adults are immobile but their larvae are mobile, and use their mobile larval form to distribute themselves. These larvae used for dispersal are either planktotrophic (feeding) or lecithotrophic (non-feeding). Some larvae are dependent on adults to feed them. In many eusocial Hymenoptera species, the larvae are fed by female workers. In Ropalidia marginata (a paper wasp) the males are also capable of feeding larvae but they are much less efficient, spending more time and getting less food to the larvae. The larvae of some organisms (for example, some newts) can become pubescent and do not develop further into the adult form. This is a type of neoteny. Eurosta solidaginis Goldenrod Gall Fly larva It is a misunderstanding that the larval form always reflects the group's evolutionary history. This could be the case, but often the larval stage has evolved secondarily, as in insects. In these cases the larval form may differ more than the adult form from the group's common ori ------------------------------ Date: Sun, 9 Jul 2023 10:41:17 +0200 From: "Soft manhood" Subject: little-known trick to reverse soft erections little-known trick to reverse soft erections http://mysolarcost.today/g-ZOl69ku7t5wxA9wKPwf2KbNauSFfGiNJJumcIJWHZXZ2ioPg http://mysolarcost.today/ox-tbJhLCcjrP7l7zN1kslCPK7x4LORgB37wb2bqQZDPX_uVUw The two strategies hypothesis was put forth by Patrick Weatherhead in 1983 as an alternative to the then popular information center hypothesis. This hypothesis proposes that different individuals join and participate in communal roosts for different reasons that are based primarily on their social status. Unlike the ICH, not all individuals will join a roost in order to increase their foraging capabilities. This hypothesis explains that while roosts initially evolved due to information sharing among older and more experienced foragers, this evolution was aided by the benefits that more experienced foragers gained due to the fact that as better foragers they acquired a status of high rank within the roost. As dominant individuals, they are able to obtain the safest roosts, typically those highest in the tree or closest to the center of the roost. In these roosts, the less dominant and unsuccessful foragers act as a physical predation buffer for the dominant individuals. This is similar to the selfish herd theory, which states that individuals within herds will utilize conspecifics as physical barriers from predation. The younger and less dominant individuals will still join the roost because they gain some safety from predation through the dilution effect, as well as the ability to learn from the more experienced foragers that are already in the roo ------------------------------ End of alt.music.moxy-fruvous digest V14 #11781 ***********************************************