From: owner-ammf-digest@smoe.org (alt.music.moxy-fruvous digest) To: ammf-digest@smoe.org Subject: alt.music.moxy-fruvous digest V14 #6155 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 Tuesday, March 16 2021 Volume 14 : Number 6155 Today's Subjects: ----------------- $50 could be yours today! ["Rachel" ] SmartSnake HD have Additional Magnet, Hook and Mirror Heads Included ["Sn] Keeps You Healthy 24/7 ["AirWatch S" ] Energy Efficient, Saves Money on Electricity ["Compact Heater" ] ---------------------------------------------------------------------- Date: Tue, 16 Mar 2021 07:14:27 -0400 From: "Rachel" Subject: $50 could be yours today! $50 could be yours today! http://bpbalanceinfo.buzz/eHaMHXoZociqKpqlgSYz3xaGTEK-ihzd-2cIThfrujFOJKcJ http://bpbalanceinfo.buzz/GNRvBgk1sKISASgNsopeol0JigfmVxjD6S6LltRo1MUxUtvl rsuit diving exerts greater pressures (both evolutionary and physiological) on seabirds, but the reward is a greater area in which to feed than is available to surface feeders. Underwater propulsion is provided by wings (as used by penguins, auks, diving petrels and some other species of petrel) or feet (as used by cormorants, grebes, loons and several types of fish-eating ducks). Wing-propelled divers are generally faster than foot-propelled divers. The use of wings or feet for diving has limited their utility in other situations: loons and grebes walk with extreme difficulty (if at all), penguins cannot fly, and auks have sacrificed flight efficiency in favour of diving. For example, the razorbill (an Atlantic auk) requires 64% more energy to fly than a petrel of equivalent size. Many shearwaters are intermediate between the two, having longer wings than typical wing-propelled divers but heavier wing loadings than the other surface-feeding procellariids, leaving them capable of diving to considerable depths while still being efficient long-distance travellers. The short-tailed shearwater is the deepest diver of the shearwaters, having been recorded diving below 70 m. Some albatross species are also capable of limited diving, with light-mantled sooty albatrosses holding the record at 12 m. Of all the wing-propelled pursuit divers, the most efficient in the air are the albatrosses, and they are also the poor ------------------------------ Date: Tue, 16 Mar 2021 05:55:45 -0700 From: "Snake Tube Camera" Subject: SmartSnake HD have Additional Magnet, Hook and Mirror Heads Included SmartSnake HD have Additional Magnet, Hook and Mirror Heads Included http://smartsnake.us/3J_8XTk8IKaQp7dOS49zIrYJV7ob40W2LPDKd2quJMfZmmE5 http://smartsnake.us/22G8Z4ad6GxSDcHDxQezv3yHp9mNnJWKLNyivUAC0gBDJLgW any seabirds show remarkable site fidelity, returning to the same burrow, nest or site for many years, and they will defend that site from rivals with great vigour. This increases breeding success, provides a place for returning mates to reunite, and reduces the costs of prospecting for a new site. Young adults breeding for the first time usually return to their natal colony, and often nest close to where they hatched. This tendency, known as philopatry, is so strong that a study of Laysan albatrosses found that the average distance between hatching site and the site where a bird established its own territory was 22 m; another study, this time on Cory's shearwaters nesting near Corsica, found that of nine out of 61 male chicks that returned to breed at their natal colony bred in the burrow they were raised in, and two actually bred with their own mother. Colonies are usually situated on islands, cliffs or headlands, which land mammals have difficulty accessing. This is thought to provide protection to seabirds, which are often very clumsy on land. Coloniality often arises in types of bird that do not defend feeding territories (such as swifts, which have a very variable prey source); this may be a reason why it arises more frequently in seabirds. There are other possible advantages: colonies may act as information centres, where seabirds returning to the sea to forage can find out where prey is by studying returning individuals of the same species. There are disadvantages to colonial life, particularly the spread of disease. Colonies also attract the attention of predators, principally other birds, and many species attend their colonies nocturnally to avoid predation. Birds from different colonies often forage in different areas to avoid competi ------------------------------ Date: Tue, 16 Mar 2021 08:22:31 -0400 From: "AirWatch S" Subject: Keeps You Healthy 24/7 Keeps You Healthy 24/7 http://getmask.biz/R8L0GZ0C8ftdth8yPm5qHZIcs5oB4RLUZOrImWyE5FXWMx5q http://getmask.biz/5OBDjFvTQ3ChOifIPJPoQDK0jHTjHo5DTM0oy7GhbHofKw-B nety-five percent of seabirds are colonial, and seabird colonies are among the largest bird colonies in the world, providing one of Earth's great wildlife spectacles. Colonies of over a million birds have been recorded, both in the tropics (such as Kiritimati in the Pacific) and in the polar latitudes (as in Antarctica). Seabird colonies occur exclusively for the purpose of breeding; non-breeding birds will only collect together outside the breeding season in areas where prey species are densely aggregated.[citation needed] Seabird colonies are highly variable. Individual nesting sites can be widely spaced, as in an albatross colony, or densely packed as with a murre colony. In most seabird colonies, several different species will nest on the same colony, often exhibiting some niche separation. Seabirds can nest in trees (if any are available), on the ground (with or without nests), on cliffs, in burrows under the ground and in rocky crevices. Competition can be strong both within species and between species, with aggressive species such as sooty terns pushing less dominant species out of the most desirable nesting spaces. The tropical Bonin petrel nests during the winter to avoid competition with the more aggressive wedge-tailed shearwater. When the seasons overlap, the wedge-tailed shearwaters will kill young Bonin petrels in ord ------------------------------ Date: Tue, 16 Mar 2021 05:58:28 -0400 From: "Compact Heater" Subject: Energy Efficient, Saves Money on Electricity Energy Efficient, Saves Money on Electricity http://bpbalanceinfo.buzz/DRHq5-GrsUo7OS8tCRjLR9a5jvrHGoXMkvfqTSiRm1BIJ8aX http://bpbalanceinfo.buzz/oo8AA39kAwNrWocupd9aGX5VuzLbo2fleGGi7_e7ZHUYJ_Tq ith the exception of the cormorants and some terns, and in common with most other birds, all seabirds have waterproof plumage. However, compared to land birds, they have far more feathers protecting their bodies. This dense plumage is better able to protect the bird from getting wet, and cold is kept out by a dense layer of down feathers. The cormorants possess a layer of unique feathers that retain a smaller layer of air (compared to other diving birds) but otherwise soak up water. This allows them to swim without fighting the buoyancy that retaining air in the feathers causes, yet retain enough air to prevent the bird losing excessive heat through contact with water.[citation needed] The plumage of most seabirds is less colourful than that of land birds, restricted in the main to variations of black, white or grey. A few species sport colourful plumes (such as the tropicbirds and some penguins), but most of the colour in seabirds appears in the bills and legs. The plumage of seabirds is thought in many cases to be for camouflage, both defensive (the colour of US Navy battleships is the same as that of Antarctic prions, and in both cases it reduces visibility at sea) and aggressive (the white underside possessed by many seabirds helps hide them from prey below). The usually black wing tips help prevent wear, as they contain melanins to make them black that helps the feathers resist abras ------------------------------ Date: Tue, 16 Mar 2021 03:41:53 -0700 From: "Tactical USA" Subject: Carry Your Gun With Comfort, Discretion and Easy Access Carry Your Gun With Comfort, Discretion and Easy Access http://lostways.co/Lw_y78x00HGjt7ubsDFPMlXkfFoSKTxsTsjazJNKDJiQISR4 http://lostways.co/grY241WxNtqzfr2_q_NvdgnqDVl7a_SwJiWM4E1JWP22G4UA abirds have made numerous adaptations to living on and feeding in the sea. Wing morphology has been shaped by the niche an individual species or family has evolved, so that looking at a wing's shape and loading can tell a scientist about its life feeding behaviour. Longer wings and low wing loading are typical of more pelagic species, while diving species have shorter wings. Species such as the wandering albatross, which forage over huge areas of sea, have a reduced capacity for powered flight and are dependent on a type of gliding called dynamic soaring (where the wind deflected by waves provides lift) as well as slope soaring. Seabirds also almost always have webbed feet, to aid movement on the surface as well as assisting diving in some species. The Procellariiformes are unusual among birds in having a strong sense of smell, which is used to find widely distributed food in a vast ocean, and help distinguish familiar nest odours from unfamiliar ones. Salt glands are used by seabirds to deal with the salt they ingest by drinking and feeding (particularly on crustaceans), and to help them osmoregulate. The excretions from these glands (which are positioned in the head of the birds, emerging from the nasal cavity) are almost pure sodium chlo ------------------------------ Date: Tue, 16 Mar 2021 07:23:49 -0400 (EDT) From: Naomi Iwasaki Subject: Re: Business proposal body {height: 100%; color:#000000; font-size:12pt; font-family:arial, helvetica, sans-serif;} Hello, How are you doing today? I am Naomi Iwasaki. I am sorry for contacting you directly to your email. I have a very genuine and Lucrative opportunity that won't distract you from your daily schedule. I will like to talk to you about something very important. Please acknowledge my email so I can provide you with details. I await your response. Best Regards, Naomi Iwasaki. ------------------------------ End of alt.music.moxy-fruvous digest V14 #6155 **********************************************