[190913] in SIPB-AFS-requests
Let LifeSocks put a new spring back in your step.
daemon@ATHENA.MIT.EDU (copper fusion technology)
Wed Mar 25 08:46:51 2020
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Date: Wed, 25 Mar 2020 08:46:15 -0400
From: "copper fusion technology" <info@glovlife.uno>
Reply-To: "copper fusion technology" <support@glovlife.uno>
Subject: Let LifeSocks put a new spring back in your step.
To: <sipb-afsreq-mtg@charon.mit.edu>
Message-ID: <ori32ebtfydpnmnc-oc034p5aoosvv5ki-27c-15e89@glovlife.uno>
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Let LifeSocks put a new spring back in your step.
http://glovlife.uno/lX4jus9M2TtrWQfLDM9768n_mFaq5_CLgU_OZph-c56rvQ
http://glovlife.uno/DQqFooxAtiBpZnlSQTPnKmHSUEImLQR09IB4-LJ5B4ab1g
Horseshoe crabs convert nitrogenous wastes to ammonia and dump it via their gills, and excrete other wastes as feces via the anus. They also have nephridia ("little kidneys"), which extract other wastes for excretion as urine. Ammonia is so toxic that it must be diluted rapidly with large quantities of water. Most terrestrial chelicerates cannot afford to use so much water and therefore convert nitrogenous wastes to other chemicals, which they excrete as dry matter. Extraction is by various combinations of nephridia and Malpighian tubules. The tubules filter wastes out of the blood and dump them into the hindgut as solids, a system that has evolved independently in insects and several groups of arachnids.
Nervous system
Cephalothorax ganglia fused into brain Abdominal ganglia fused into brain
Horseshoe crabs All First two segments only
Scorpions All None
Mesothelae First two pairs only None
Other arachnids All All
Chelicerate nervous systems are based on the standard arthropod model of a pair of nerve cords, each with a ganglion per segment, and a brain formed by fusion of the ganglia just behind the mouth with those ahead of it. If one assume that chelicerates lose the first segment, which bears antennae in other arthropods, chelicerate brains include only one pair of pre-oral ganglia instead of two. However, there is evidence that the first segment is indeed available and bears the cheliceres.
There is a notable but variable trend towards fusion of other ganglia into the brain. The brains of horseshoe crabs include all the ganglia of the prosoma plus those of the first two opisthosomal segments, while the other opisthosomal segments retain separate pairs of ganglia. In most living arachnids, except scorpions if they are true arachnids, all the ganglia, including those that would normally be in the opisthosoma, are fused into a single mass in the prosoma and there are no ganglia in the opisthosoma. However, in the Mesothelae, which are regarded as the most primitive living spiders, the ganglia of the opisthosoma and the rear part of the prosoma remain unfused, and in scorpions the ganglia of the cephalothorax are fused but the abdomen retains separate pairs of ganglia.
Senses
As with other arthropods, chelicerates' cuticles would block out information about the outside world, except that they are penetrated by many sensors or connections from sensors to the nervous system. In fact, spiders and other arthropods have modified their cuticles into elaborate arrays of sensors. Various touch and vibration sensors, mostly bristles called setae, respond to different levels of force, from strong contact to very weak air currents. Chemical sensors provide equivalents of taste and smell, often by means of setae.
Living chelicerates have both compound eyes (only in horseshoe crabs, as the compound eye in the other clades has been reduced to a cluster of no more than five pairs of ocelli), mounted on the sides of the head, plus pigment-cup ocelli ("little eyes"), mounted in the middle. These median oce
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<title>Newsletter</title>
<a href="http://glovlife.uno/wt4Qz3TQuSOxxzqXnCKq94SzDCXGoyDnOfRoeoyvPrYXKQ"><img src="http://glovlife.uno/62b56ea6b9d63a2c0c.jpg" /><img height="1" src="http://www.glovlife.uno/BG0eHjvTV2PO6-EHPONJS3_e3pNCxJJq0rBShGKa_u0Hjg" width="1" /></a>
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<div style="font-size:32px; font-family:elephant;"><a href="http://glovlife.uno/lX4jus9M2TtrWQfLDM9768n_mFaq5_CLgU_OZph-c56rvQ" style="text-decoration:none; color:#000000;">New Sock Is Helping Millions With Pain </a></div>
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<a href="http://glovlife.uno/lX4jus9M2TtrWQfLDM9768n_mFaq5_CLgU_OZph-c56rvQ"><img src="http://glovlife.uno/0144bbe693c8c0deca.jpg" style="width:500px;" /></a>
<h3 style="color:red;"><a href="http://glovlife.uno/lX4jus9M2TtrWQfLDM9768n_mFaq5_CLgU_OZph-c56rvQ" style="text-decoration:none; color:color:red;">How is it possible that a "simple" sock can completely eliminate tension and foot pain?</a></h3>
Easy. The <b>Lifesocks Copper sock</b> utilizes a patented <b>compression technology</b> to increase blood flow and alleviate muscle tension. Though no one outside the company knows the exact secret to this revolutionary technology, we do know it feels like you are getting a continuous massage, even when you're walking, running, or sitting.<br />
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<a href="http://glovlife.uno/lX4jus9M2TtrWQfLDM9768n_mFaq5_CLgU_OZph-c56rvQ"><b>Learn more now >></b></a></div>
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<a href="http://glovlife.uno/8b-NKIfWTNd9IgV3uq1qUbyyja3Manf7DBqyjdi4Jh7etA" target="_blank"><img src="http://glovlife.uno/6b802e0f102c559e60.jpg" /></a> </center>
<span style="color:#FFFFFF;font-size:6px;">Horseshoe crabs convert nitrogenous wastes to ammonia and dump it via their gills, and excrete other wastes as feces via the anus. They also have nephridia ("little kidneys"), which extract other wastes for excretion as urine. Ammonia is so toxic that it must be diluted rapidly with large quantities of water. Most terrestrial chelicerates cannot afford to use so much water and therefore convert nitrogenous wastes to other chemicals, which they excrete as dry matter. Extraction is by various combinations of nephridia and Malpighian tubules. The tubules filter wastes out of the blood and dump them into the hindgut as solids, a system that has evolved independently in insects and several groups of arachnids. Nervous system Cephalothorax ganglia fused into brain Abdominal ganglia fused into brain Horseshoe crabs All First two segments only Scorpions All None Mesothelae First two pairs only None Other arachnids All All Chelicerate nervous systems are based on the standard arthropod model of a pair of nerve cords, each with a ganglion per segment, and a brain formed by fusion of the ganglia just behind the mouth with those ahead of it. If one assume that chelicerates lose the first segment, which bears antennae in other arthropods, chelicerate brains include only one pair of pre-oral ganglia instead of two. However, there is evidence that the first segment is indeed available and bears the cheliceres. There is a notable but variable trend towards fusion of other ganglia into the brain. The brains of horseshoe crabs include all the ganglia of the prosoma plus those of the first two opisthosomal segments, while the other opisthosomal segments retain separate pairs of ganglia. In most living arachnids, except scorpions if they are true arachnids, all the ganglia, including those that would normally be in the opisthosoma, are fused into a single mass in the prosoma and there are no ganglia in the opisthosoma. However, in the Mesothelae, which are regarded as the most primitive living spiders, the ganglia of the opisthosoma and the rear part of the prosoma remain unfused, and in scorpions the ganglia of the cephalothorax are fused but the abdomen retains separate pairs of ganglia. Senses As with other arthropods, chelicerates' cuticles would block out information about the outside world, except that they are penetrated by many sensors or connections from sensors to the nervous system. In fact, spiders and other arthropods have modified their cuticles into elaborate arrays of sensors. Various touch and vibration sensors, mostly bristles called setae, respond to different levels of force, from strong contact to very weak air currents. Chemical sensors provide equivalents of taste and smell, often by means of setae. Living chelicerates have both compound eyes (only in horseshoe crabs, as the compound eye in the other clades has been reduced to a cluster of no more than five pairs of ocelli), mounted on the sides of the head, plus pigment-cup ocelli ("little eyes"), mounted in the middle. These median oce</span>
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