From: owner-ammf-digest@smoe.org (alt.music.moxy-fruvous digest) To: ammf-digest@smoe.org Subject: alt.music.moxy-fruvous digest V14 #7352 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, August 29 2021 Volume 14 : Number 7352 Today's Subjects: ----------------- Insider: "Like crypto trading on steroids" ["Major Crypto Secret" Subject: Insider: "Like crypto trading on steroids" Insider: "Like crypto trading on steroids" http://costcoproof.co/jpgUdyTLD7lebwtzvaMSbY-oS04WRT_BCqDPOlORcqYadyTD http://costcoproof.co/BtvFM_SlozwVmoroAFW9YM-R7Y-HwIYrYWJW6eFe07-3L-Im ctions from the midgut wall, called microvilli, increase the surface area of the wall and allow more nutrients to be absorbed; they tend to be close to the origin of the midgut. In some insects, the role of the microvilli and where they are located may vary. For example, specialized microvilli producing digestive enzymes may more likely be near the end of the midgut, and absorption near the origin or beginning of the midgut.:32 Hindgut In the hindgut (element 16 in numbered diagram), or proctodaeum, undigested food particles are joined by uric acid to form fecal pellets. The rectum absorbs 90% of the water in these fecal pellets, and the dry pellet is then eliminated through the anus (element 17), completing the process of digestion. Envaginations at the anterior end of the hindgut form the Malpighian tubules, which form the main excretory system of insects. Excretory system Insects may have one to hundreds of Malpighian tubules (element 20). These tubules remove nitrogenous wastes from the hemolymph of the insect and regulate osmotic balance. Wastes and solutes are emptied directly into the alimentary canal, at the junction between the midgut and hindgut.:71b72, 78b80 Reproductive system Main article: Insect reproductive system The reproductive system of female insects consist of a pair of ovaries, accessory glands, one or more spermathecae, and ducts connecting these parts. The ovaries are made up of a number of egg tubes, called ovarioles, which vary in size and number by species. The number of eggs that the insect is able to make vary by the number of ovarioles with the rate that eggs can develop being also influenced by ovariole design. Female insects are able make eggs, receive and store sperm, manipulate sperm from different males, and lay eggs. Accessory glands or glandular parts of the oviducts produce a variety of substances for sperm maintenance, transport and fertilization, as well as for protection of eggs. They can produce glue and protective substances for coating eggs or tough coverings for a batch of eggs called oothecae. Spermathecae are tubes or sacs in which sperm can be stored between the time of mating and the time an egg is fertilized.:880 For males, the reproductive system is the testis, suspended in the body cavity by tracheae and the fat body. Most male insects have a pair of testes, inside of which are sperm tubes or follicles that are enclosed within a membranous sac. The follicles connect to the vas deferens by the vas efferens, and the two tubular vasa deferentia connect to a median ejaculatory duct that leads to the outside. A portion of the vas deferens is often enlarged to form the se ------------------------------ Date: Sun, 29 Aug 2021 09:33:50 -0400 From: "Bringing Dead Batteries" Subject: Bringing Dead Batteries Back To Life Is Simple! Bringing Dead Batteries Back To Life Is Simple! http://shedplanx.us/z77KXOYBOALr1hFT5kjRQCN-RtWUJF4ipRHFtybt9iFyZCQN http://shedplanx.us/ITOJwyLX2b13NPsaf-uD8xkTC3qX3kfmfireNUfkGOFJ8FgS ach egg with a number of live caterpillars on which the young feed when hatched. Some species of wasp always provide five, others twelve, and others as high as twenty-four caterpillars per cell. The number of caterpillars is different among species, but always the same for each sex of larva. The male solitary wasp in the genus Eumenes is smaller than the female, so the mother of one species supplies him with only five caterpillars; the larger female receives ten caterpillars in her cell. Light production and vision Most insects have compound eyes and two antennae. A few insects, such as members of the families Poduridae and Onychiuridae (Collembola), Mycetophilidae (Diptera) and the beetle families Lampyridae, Phengodidae, Elateridae and Staphylinidae are bioluminescent. The most familiar group are the fireflies, beetles of the family Lampyridae. Some species are able to control this light generation to produce flashes. The function varies with some species using them to attract mates, while others use them to lure prey. Cave dwelling larvae of Arachnocampa (Mycetophilidae, fungus gnats) glow to lure small flying insects into sticky strands of silk. Some fireflies of the genus Photuris mimic the flashing of female Photinus species to attract males of that species, which are then captured and devoured. The colors of emitted light vary from dull blue (Orfelia fultoni, Mycetophilidae) to the familiar greens and the rare reds (Phrixothrix tiemanni, Phengodidae). Most insects, except some species of cave crickets, are able to perceive light and dark. Many species have acute vision capable of detecting minute movements. The eyes may include simple eyes or ocelli as well as compound eyes of varying sizes. Many species are able to detect light in the infrared, ultraviolet and the visible light wavelengths. Color vision has been demonstrated in many species and phylogenetic analysis suggests that UV-green-blue trichromacy existed from at least the Devonian period between 416 and 359 million years ago. Sound production and hearing Insects were the earliest organisms to produce and sense sounds. Insects make sounds mostly by mechanical action of appendages. In grasshoppers and crickets, this is achieved by stridulation. Cicadas make the loudest sounds among the insects by producing and amplifying sounds with special modifications to their body to form tymbals and associated musculature. The African cicada Brevisana brevis has been measured at 106.7 decibels at a distance of 50 cm (20 in). Some insects, such as the Helicoverpa zea moths, hawk moths and Hedylid butterflies, can hear ultrasound and take evasive action when they sen ------------------------------ Date: Sun, 29 Aug 2021 09:18:44 -0400 From: "The Fat Vaccine" Subject: Dieting dose not work? Dieting dose not work? http://aliveaftercrisis.co/JeMCGkNeRyLb6BJEfNzlyETwbaYfnwVHJoMBynMwnQ1-5seV http://aliveaftercrisis.co/oGtv0lMWXEOV0ESHU59P1VA_an6wiIz69l3jiZqyA8a7B2Kh ects build nests, guard eggs, and provide food for offspring full-time (see Eusociality). Most insects, however, lead short lives as adults, and rarely interact with one another except to mate or compete for mates. A small number exhibit some form of parental care, where they will at least guard their eggs, and sometimes continue guarding their offspring until adulthood, and possibly even feeding them. Another simple form of parental care is to construct a nest (a burrow or an actual construction, either of which may be simple or complex), store provisions in it, and lay an egg upon those provisions. The adult does not contact the growing offspring, but it nonetheless does provide food. This sort of care is typical for most species of bees and various types of wasps. Locomotion Flight Main articles: Insect flight and Insect wing White-lined sphinx moth feeding in flight Basic motion of the insect wing in insect with an indirect flight mechanism scheme of dorsoventral cut through a thorax segment with a wings b joints c dorsoventral muscles d longitudinal muscles. Insects are the only group of invertebrates to have developed flight. The evolution of insect wings has been a subject of debate. Some entomologists suggest that the wings are from paranotal lobes, or extensions from the insect's exoskeleton called the nota, called the paranotal theory. Other theories are based on a pleural origin. These theories include suggestions that wings originated from modified gills, spiracular flaps or as from an appendage of the epicoxa. The epicoxal theory suggests the insect wings are modified epicoxal exites, a modified appendage at the base of the legs or coxa. In the Carboniferous age, some of the Meganeura dragonflies had as much as a 50 cm (20 in) wide wingspan. The appearance of gigantic insects has been found to be consistent with high atmospheric oxygen. The respiratory system of insects constrains their size, however the high oxygen in the atmosphere allowed larger sizes. The largest flying insects today are much smaller, with the largest wingspan belonging to the white witch moth (Thysania agrippina), at approximately 28 cm (11 in). Insect flight has been a topic of great interest in aerodynamics due partly to the inability of steady-state theories to explain the lift generated by the tiny wings of insects. But insect wings are in motion, with flapping and vibrations, resulting in churning and eddies, and the misconception that physics says "bumblebees can't fly" persisted throughout most of the twentieth century. Unlike birds, many small insects are swept along by the prevailing winds although many of the larger insects are known to make migrations. Aphids are known to be transported long distances by low-level jet streams. As such, fine line patterns assoc ------------------------------ Date: Sun, 29 Aug 2021 06:18:04 -0400 From: "Reduce Your Electric Bill" Subject: EcoWatt Pro Innovative New Tech Slashes Your Electric Bill in Half EcoWatt Pro Innovative New Tech Slashes Your Electric Bill in Half http://memobuidr.co/-uZGrNrhJORGKtJnjhr4eO-PynUH6-tt_zSNKC-ofd_y9Dr2 http://memobuidr.co/0Yw3YzezSiZfPFpJQnvMSj07WDXWpz2Sod2qHKVya261630q While convergent evolution is often illustrated with animal examples, it has often occurred in plant evolution. For instance, C4 photosynthesis, one of the three major carbon-fixing biochemical processes, has arisen independently up to 40 times. About 7,600 plant species of angiosperms use C4 carbon fixation, with many monocots including 46% of grasses such as maize and sugar cane, and dicots including several species in the Chenopodiaceae and the Amaranthaceae. Fruits A good example of convergence in plants is the evolution of edible fruits such as apples. These pomes incorporate (five) carpels and their accessory tissues forming the apple's core, surrounded by structures from outside the botanical fruit, the receptacle or hypanthium. Other edible fruits include other plant tissues; for example, the fleshy part of a tomato is the walls of the pericarp. This implies convergent evolution under selective pressure, in this case the competition for seed dispersal by animals through consumption of fleshy fruits. Seed dispersal by ants (myrmecochory) has evolved independently more than 100 times, and is present in more than 11,000 plant species. It is one of the most dramatic examples of convergent evolution in biology. Carnivory Molecular convergence in carnivorous plants Carnivory has evolved multiple times independently in plants in widely separated groups. In three species studied, Cephalotus follicularis, Nepenthes alata and Sarracenia purpurea, there has been convergence at the molecular level. Carnivorous plants secrete enzymes into the digestive fluid they produce. By studying phosphatase, glycoside hydrolase, glucanase, RNAse and chitinase enzymes as well as a pathogenesis-related protein and a thaumatin-related protein, the authors found many convergent amino acid substitutions. These changes were not at the enzymes' catalytic sites, but rather on the exposed surfaces of the proteins, where they might interact with other components of the cell or the digestive fluid. The authors also found that homologous genes in the non-carnivorous plant Arabidopsis thaliana tend to have their expression increased when the plant is stressed, leading the authors to suggest that stress-responsive proteins have often been co-opted in the repeated evolution of ca ------------------------------ Date: Sun, 29 Aug 2021 08:13:41 -0400 From: "Eliminate fat Fast" Subject: The diet revolution that took Shark Tank by storm! The diet revolution that took Shark Tank by storm! http://shedplanx.us/u6XwjHtpTjbupdGIaFDdpcxIrCZBv4lZHP5D5LPH61Qn7LnC http://shedplanx.us/NQnGcxWbTkZ0CFWTThUlmnSNCqwj1zkm4nsxTZ0j4aHdk58K ority of insects hatch from eggs. The fertilization and development takes place inside the egg, enclosed by a shell (chorion) that consists of maternal tissue. In contrast to eggs of other arthropods, most insect eggs are drought resistant. This is because inside the chorion two additional membranes develop from embryonic tissue, the amnion and the serosa. This serosa secretes a cuticle rich in chitin that protects the embryo against desiccation. In Schizophora however the serosa does not develop, but these flies lay their eggs in damp places, such as rotting matter. Some species of insects, like the cockroach Blaptica dubia, as well as juvenile aphids and tsetse flies, are ovoviviparous. The eggs of ovoviviparous animals develop entirely inside the female, and then hatch immediately upon being laid. Some other species, such as those in the genus of cockroaches known as Diploptera, are viviparous, and thus gestate inside the mother and are born alive.:129, 131, 134b135 Some insects, like parasitic wasps, show polyembryony, where a single fertilized egg divides into many and in some cases thousands of separate embryos.:136b137 Insects may be univoltine, bivoltine or multivoltine, i.e. they may have one, two or many broods (generations) in a year. The different forms of the male (top) and female (bottom) tussock moth Orgyia recens is an example of sexual dimorphism in insects. Other developmental and reproductive variations include haplodiploidy, polymorphism, paedomorphosis or peramorphosis, sexual dimorphism, parthenogenesis and more rarely hermaphroditism.:143 In haplodiploidy, which is a type of sex-determination system, the offspring's sex is determined by the number of sets of chromosomes an individual receives. This system is typical in bees and wasps. Polymorphism is where a species may have different morphs or forms, as in the oblong winged katydid, which has four different varieties: green, pink and yellow or tan. Some insects may retain phenotypes that are normally only seen in juveniles; this is called paedomorphosis. In peramorphosis, an opposite sort of phenomenon, insects take on previously unseen traits after they have matured into adults. Many insects display sexual dimorphism, in which males and females have notably different appearances, such as the moth Orgyia recens as an exemplar of sexual dimorphism in ins ------------------------------ Date: Sun, 29 Aug 2021 06:01:33 -0400 From: "Kroger Feedback" Subject: Kroger Opinion Requested Kroger Opinion Requested http://alphazymplus.co/Jqk6X-IL_928wPXwihBbwUf7jaP831X-5ZC9u2B2qBxKz3c http://alphazymplus.co/eTlWLF7szgEE7j9SzefPv-ev5FXnnqBrdhifwDMiUVeR-Hc mature stages often differ from the adults in structure, habit and habitat, and can include a passive pupal stage in those groups that undergo four-stage metamorphosis. Insects that undergo three-stage metamorphosis lack a pupal stage and adults develop through a series of nymphal stages. The higher level relationship of the insects is unclear. Fossilized insects of enormous size have been found from the Paleozoic Era, including giant dragonflies with wingspans of 55 to 70 cm (22 to 28 in). The most diverse insect groups appear to have coevolved with flowering plants. Adult insects typically move about by walking, flying, or sometimes swimming. As it allows for rapid yet stable movement, many insects adopt a tripedal gait in which they walk with their legs touching the ground in alternating triangles, composed of the front and rear on one side with the middle on the other side. Insects are the only invertebrates to have evolved flight, and all flying insects derive from one common ancestor. Many insects spend at least part of their lives under water, with larval adaptations that include gills, and some adult insects are aquatic and have adaptations for swimming. Some species, such as water striders, are capable of walking on the surface of water. Insects are mostly solitary, but some, such as certain bees, ants and termites, are social and live in large, well-organized colonies. Some insects, such as earwigs, show maternal care, guarding their eggs and young. Insects can communicate with each other in a variety of ways. Male moths can sense the pheromones of female moths over great distances. Other species communicate with sounds: crickets stridulate, or rub their wings together, to attract a mate and repel other males. Lampyrid beetles communicate with light. Humans regard certain insects as pests, and attempt to control them using insecticides, and a host of other techniques. Some insects damage crops by feeding on sap, leaves, fruits, or wood. Some spe ------------------------------ Date: Sat, 28 Aug 2021 10:04:38 -0700 (PDT) From: ahad trining Subject: =?UTF-8?B?2KfZhNmF2YfYp9ix2KfYqiDYp9mE2YXYqtmC2K/ZhdipINmB2Yog2 KXYrw==?= =?UTF-8?B?2KfYsdipINin2YTZhdmD2KfYqtioINmI2KrZhti42YrZhSDYp9mE2KPYudmF ?= =?UTF-8?B?2KfZhCDZhdmGIDUg4oCTIDnYs9io2KrZhdio2LEgMjAyMSDZhQ==?= =?UTF-8?B?INmE2YTYqtmI2KfYtdmEIDowMDIwMTA2Mjk5MjUxMA==?= Cgoq2KfZhNiz2YTYp9mFINi62YTZitmD2YUg2YjYsdit2YXYqSDYp9mE2YTZhyDZiNio2LHZg9in 2KrYqSoKCirYqtmH2K/ZitmD2YUgKirYp9mE2K/Yp9ixINin2YTYudix2KjZitipINmE2YTYqtmG 2YXZitipINin2YTYp9iv2KfYsdmK2Kkq2KjYp9mE2KrYudin2YjZhiDZhdi5CgrYp9mE2KfYqtit 2KfYryDYp9mE2K/ZiNmE2Yog2YTZhdik2LPYs9in2Kog2KfZhNiq2YbZhdmK2Kkg2KfZhNio2LTY sdmK2KkKCtij2LfZitioINiq2K3Zitin2KrZh9inINmI2KPZhdmG2YrYp9iq2YfYpyDYqNiv2YjY p9mFINin2YTYqtmI2YHZitmCCgrZhtit2YrYtyDYudmE2YUg2LPZitin2K/YqtmD2YUg2KjYudiy 2YUg2KfZhNiv2KfYsSDYp9mE2LnYsdio2YrYqSDYudmE2Ykg2LnZgtivCgoq2KfZhNmF2YfYp9ix 2KfYqiDYp9mE2YXYqtmC2K/ZhdipINmB2Yog2KXYr9in2LHYqSDYp9mE2YXZg9in2KrYqCDZiNiq 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YX9X1X6 YX0Y X'YYYX'YX4X) X9YY X'YYY X(X X'YX*YY X%YY https://groups.google.com/d/msgid/amanylolomklgkfjdh/CANH-9HW1Q2XEVvFXRO-VLuxJBVgkVDKxT6jGvO55%3DW9T4CvQ7g%40mail.gmail.com. ------------------------------ Date: Sun, 29 Aug 2021 07:32:34 -0400 From: "Fiery Acid Reflux" Subject: Could your acid reflux REALLY kill you? (shocking) Could your acid reflux REALLY kill you? (shocking) http://memobuidr.co/lh0zKVICfXmVpc0awDJGdsNhwmY_eizzhe--MLXyCIdyWx0m http://memobuidr.co/_ehJFZZJ5HA5qwSYmxHkxSxf2vMTujK4DPeJxtFdt4LH2e4A he nervous system of an insect can be divided into a brain and a ventral nerve cord. The head capsule is made up of six fused segments, each with either a pair of ganglia, or a cluster of nerve cells outside of the brain. The first three pairs of ganglia are fused into the brain, while the three following pairs are fused into a structure of three pairs of ganglia under the insect's esophagus, called the subesophageal ganglion.:57 The thoracic segments have one ganglion on each side, which are connected into a pair, one pair per segment. This arrangement is also seen in the abdomen but only in the first eight segments. Many species of insects have reduced numbers of ganglia due to fusion or reduction. Some cockroaches have just six ganglia in the abdomen, whereas the wasp Vespa crabro has only two in the thorax and three in the abdomen. Some insects, like the house fly Musca domestica, have all the body ganglia fused into a single large thoracic ganglion.[citation needed] At least a few insects have nociceptors, cells that detect and transmit signals responsible for the sensation of pain.[failed verification] This was discovered in 2003 by studying the variation in reactions of larvae of the common fruit-fly Drosophila to the touch of a heated probe and an unheated one. The larvae reacted to the touch of the heated probe with a stereotypical rolling behavior that was not exhibited when the larvae were touched by the unheated probe. Although nociception has been demonstrated in insects, there is no consensus that insects feel pain consciously Insects are capable of learning. Digestive system An insect uses its digestive system to extract nutrients and other substances from the food it consumes. Most of this food is ingested in the form of macromolecules and other complex substances like proteins, polysaccharides, fats and nucleic acids. These macromolecules must be broken down by catabolic reactions into smaller molecules like amino acids and simple sugars before being used by cells of the body for energy, growth, or reproduction. This break-down process is known as digestion. There is extensive variation among different orders, life stages, and even castes in the digestive system of insects. This is the result of extreme adaptations to various lifestyles. The present description focuses on a generalized compo ------------------------------ Date: Sun, 29 Aug 2021 05:11:00 -0400 From: "Consumer Feedback" Subject: Claim Your One Hundred Dollar Venmo Offer Claim Your One Hundred Dollar Venmo Offer http://alphafix.us/e1wAICxGIjjPANKprKxLzWdylXA3AJakwyKRv3a9pzOFJzTO http://alphafix.us/hegz2OYGWnlpLPS5jbGLB5FpeKmx6-f2QXYiALmY33Ax_n2F ylacine held the status of endangered species until the 1980s. International standards at the time stated that an animal could not be declared extinct until 50 years had passed without a confirmed record. Since no definitive proof of the thylacine's existence in the wild had been obtained for more than 50 years, it met that official criterion and was declared extinct by the International Union for Conservation of Nature in 1982 and by the Tasmanian government in 1986. The species was removed from Appendix I of the Convention on International Trade in Endangered Species of Wild Fauna and Flora (CITES) in 2013. Unconfirmed sightings Map showing the location of reported sightings between 1936 and 1980 in Tasmania. Black = 1 reported sighting, red = 5 reported sightings. The Department of Conservation and Land Management recorded 203 reports of sightings of the thylacine in Western Australia from 1936 to 1998. On the mainland, sightings are most frequently reported in Southern Victoria. Map of reported sightings in the southwest of Western Australia In 1982, a researcher with the Tasmania Parks and Wildlife Service, Hans Naarding, observed what he believed to be a thylacine for three minutes during the night at a site near Arthur River in northwestern Tasmania. The sighting led to an extensive year-long government-funded search. In 1985, Aboriginal tracker Kevin Cameron produced five photographs which appear to show a digging thylacine, which he stated he took in Western Australia. In January 1995, a Parks and Wildlife officer reported observing a thylacine in the Pyengana region of northeastern Tasmania in the early hours of the morning. Later searches revealed no trace of the animal. In 1997, it was reported that locals and missionaries near Mount Carstensz in Western New Guinea had sighted thylacines. The locals had apparently known about them for many years but had not made an official report. In February 2005 Klaus Emmerichs, a German tourist, claimed to have taken digital photographs of a thylacine he saw near the Lake St Clair National Park, but the authenticity of the photographs has not been established. The photos were published in April 2006, fourteen months after the sighting. The photographs, which showed only the back of the animal, were said by those who studied them to be inconclusive as evidence of the thylacine's contin ------------------------------ Date: Sun, 29 Aug 2021 08:51:47 -0700 From: =?UTF-8?B?2YjYrdiv2Kkg2KfZhNio2LHYp9mF2Kwg2KfZhNiq2K/YsdmK2KjZitip INmI2YjYsdi0INin?= =?UTF-8?B?2YTYudmF2YQ=?= Subject: =?UTF-8?B?2KXYudiv2KfYr9in2YTZhdmI2KfYstmG2KfYqiDYp9mE2KrYrti32 4zYt9uM2KnYjCDZiA==?= =?UTF-8?B?2KfZhNix2YLYp9io2Kkg2YjYp9mE2LbYqNi3INin2YTYr9in2K7ZhNmK2Iwg 2YjYp9mE2KrYrdmE24w=?= =?UTF-8?B?2YQg2KfZhNmF2KfZhNmKINmF2YYgNSDigJMgOSDYs9io2KrZhdio2LEgMjAy MSDZhSDZhNmE2KrZiNin?= =?UTF-8?B?2LXZhCA6MDAyMDEwNjI5OTI1MTA=?= *X'YX3YX'Y X:YY YY YX1X-YX) X'YYY YX(X1YX'X*X)* *X*YX/Y YY **X'YX/X'X1 X'YX9X1X(Y X) YYX*YYY X) X'YX'X/X'X1Y X)* X(X'YX*X9X'YY YX9 X'YX'X*X-X'X/ X'YX/YYY YYX$X3X3X'X* X'YX*YYY X) X'YX(X4X1Y X) X#X7Y X( X*X-Y X'X*YX' YX#YYY X'X*YX' X(X/YX'Y X'YX*YYY Y YX-Y X7 X9YY X3Y X'X/X*YY X(X9X2Y X'YX/X'X1 X'YX9X1X(Y X) X9YY X9YX/ *X%X9X/X'X/ X'YYYX'X2YX'X* X'YX*X.X7[ X7[ X)X YX'YX1YX'X(X) YX'YX6X(X7 X'YX/X'X.YY X YX'YX*X-Y[ Y X'YYX'YY * *YY 5 b 9 X3X(X*YX(X1 2021 Y* *X'YYX'YX1X) b X,YYYX1Y X) YX5X1 X'YX9X1X(Y X)* *X-X6YX1 X'YX*X1X'X6Y X9X(X1 YYX5X) X2YYYY YY X-X'Y X*X9X+X1 X'YX-X6YX1 X'YYX9YY * X'YYYX/YX): YX0Y X'YX/YX1X) " X%X9X/X'X/ X'YYYX'X2YX'X* X'YX*X.X7[ X7[ X)X YX'YX1YX'X(X) YX'YX6X(X7 X'YX/X'X.YY X YX'YX*X-Y[ Y X'YYX'YY " YX'YYX5YYX) YY YX(Y X'YX/X'X1 X'YX9X1X(Y X) X X3X*YX/Y X'YYX1X5X) YYYX4X'X1YY Y YYX*X9X1Y X9YY X7Y Y YX'X3X9 YY X#X3X'YY X( X'YX*YX(X$ X'YYX'YY YYYYX,Y X'X* X%X9X/X'X/ X'YYYX'X2YX'X* YX*X-YY Y X'YX'YX-X1X'YX'X* YYY X'X3 X'YX#X/X'X! 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