Эротические рассказы

Parasitology. Alan GunnЧитать онлайн книгу.

Parasitology - Alan Gunn


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are referred to as ectosymbionts. There are two types of endosymbiont: primary endosymbionts (or p‐endosymbionts) and secondary endosymbionts. Primary endosymbionts form obligate relationships with their host and are the product of many millions of years of co‐evolution. They are usually contained within specialised cells and are transferred vertically from mother to offspring. Consequently, they undergo co‐speciation with their host and form very close host‐specific relationships. By contrast, secondary endosymbionts probably represent more recent host: symbiont associations. In the case of insects, these symbionts live within the haemolymph (blood) rather than specialised cells or organs. Secondary endosymbionts tend to be transmitted horizontally and therefore do not show a close host: symbiont relationship. Horizontal transmission occurs when a symbiont (or parasite) is transmitted from one host to another that is not necessarily related to it.

      It is uncertain how endosymbionts begin their association with their hosts, but some authors suggest that they arise from pathogens that attenuated over time. The suggestion that a parasite–host relationship tends to start off acrimoniously and then mellows with time is widespread in the literature, and whilst this may sometimes occur it is not a foregone conclusion.

      1.2.1.2 The Importance of Symbionts to Blood‐feeding Organisms

      In blood‐feeding leeches belonging to the order Rhynchobdellida (there is a popular misconception that all leeches feed on blood; many of them are predatory), mycetomes surround or connect to the oesophagus. Mycetomes do not form in all blood‐feeding leeches, and in the medicinal leech, Hirudo medicinalis (Figure 12.1), the symbiotic bacteria live within the lumen of the gut (Graf et al. 2006). The bacteria present in H. medicinalis are Aeromonas veronii; earlier work on leeches often refers to this bacterium as Aeromonas hydrophila. Aeromonas veronii also forms associations with other blood‐feeding invertebrates, as well as vampire bats, but it can also live independently as a free‐living organism. Interestingly, both H. medicinalis and A. veronii produce antimicrobial peptides that suppress the growth of other microbes in the leech’s gut (Tasiemski et al. 2015). This reduces the diversity of the gut microbial flora and emphasises the close relationship between the two organisms. Aeromonas veronii is not always beneficial: in humans, it causes wound infections, septicaemia, and gastroenteritis. Blood‐feeding leeches are useful in modern medicine, particularly to aid wound drainage following reconstructive surgery, but there is a risk of them facilitating an Aeromonas infection in the patient. The infections are often trivial, but they can become serious and lead to abscesses or cellulitis. This is a difficult problem to solve because the symbiotic bacteria are essential for the long‐term survival of the leech. One cannot develop a strain or culture of Aeromonas‐free leeches. However, treating the leeches 1–4 weeks before use with an antibiotic such as ciprofloxacin removes the bacteria without compromising the willingness of the leech to feed (Mumcuoglu et al. 2010). A leech is only used once in reconstructive surgery because of their potential to transmit diseases between patients. Consequently, the long‐term survival of antibiotic‐treated leeches is not a concern.

      The term ‘commensalism’ derives from the Latin commensalis and means ‘at the same table together’. Most definitions state that one species benefits from the association and the other is unharmed (0+). Including the concept of ‘harm’ within any definition is seldom a good idea because harm is difficult to measure and varies with the circumstances. Similarly, a ‘benefit’ may not be immediately apparent, and some associations commonly cited as commensal might involve a degree of benefit to both parties (++) albeit they may not benefit to the same extent. A commensal association may be ‘facultative’, in which both species can live independently of one another or ‘obligatory’, in which one of the associates must live in association with its partner. For example, in many warmer parts of the world, the cattle egret (Bubulcus ibis) perches on the back of cattle and big game from which it swoops down periodically to capture lizards and insects that are disturbed as its ride moves through the undergrowth. The egret is perfectly capable of living apart from cattle, but it benefits from its mobile vantage point‐cum‐beater. The egrets probably do not remove many ectoparasites from the cattle and they get their Arabic name Abu Qerdan ‘father of ticks’ from the abundance of ticks associated with their nesting colonies. The cattle, therefore, appear to gain little from the relationship although the egret acts as an early warning system of the approach of predators. African Cape Buffalo (Syncerus caffer) have a good sense of smell but a notoriously poor eyesight: they are therefore vulnerable to predators approaching from downwind. The red‐billed oxpecker (Buphagus erythrorhynchus) is sometimes said to have a similar commensal relationship with cattle, but this is almost certainly false. Unlike cattle egrets, the red‐billed


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