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List Price: £14.50
Our Price: £11.74
Author:
C Combes
By Chicago University Press
 The little [and some not so little] buggers are everywhere!, 2008-03-28
The term "parasite" usually evokes the image of some little critter feasting off some "host" unable to reject it or cast it away. Claude Combes wishes us to revise that simplistic description in favour of a more realistic view. "Parasitism" needs better definition. He prefers a more descriptive term, "mutualism" which covers more biological territory. In this wonderfully conceived and beautifully written account of what science has learned about parasites, he explains how species interact, sometimes to mutual benefit.
The "art" of being a parasite resides in their evolutionary history. Some creatures, once free-living, have managed to occupy others at various surface contact areas or internally. The mitochondria in our cells, the "energy engines" were clearly once free-living bacteria. Invading cells, they paid a "rent" of genes donated to the main genome in the nucleus. The arrangement is apparently incomplete, as mitochondria still make bids for independence. In some cases, the intruder merely occupies the host, generally on its way to another species to enter its reproductive phase. Other invaders proved to interact so well with their hosts that they have become entirely dependent on each other for survival. Combes lays all these situations out for us, describing the process as part of the "evolutionary arms race". That arms race has other applications such as predator-prey interaction, but the result in that scenario has no mutual benefit - the predator wins, eating the prey, or loses and goes hungry.
The key to parasite-host relations lies in two filters. The invader must pass an encounter filter, which might reflect little more than availability. If a potential host is not close to the parasite, there's nothing to attach itself to. If the parasite is species specific - as is the case with the wasp-fig associations, the potential parasite will expire. The host may have mechanisms in place to resist the intrusion. If the parasite gains entry, a "compatibility" filter situation arises. The host may have immunity elements that cast off the intruder. Both these filter systems are the basis of the evolutionary arms race between parasite and host. That situation has been credited with being the foundation for all evolution. The erection of the filters by the host and changes to circumvent them by the parasite may have brought about selection changes. This is the basis for much of what's called "coevolution" - an ongoing process over time in which each species changes in response to changes in the other.
While "parasitism" is generally considered to be one species utilising another's resources - even if the parasite is using the host as a way-station to another host - there are many cases in which the arrangement is more mutual. The wasp-fig liaison is fairly well known now with the wasps acting as pollinators between the fig plants. Except that the wasp lives in galls formed in the fig's branches, it resembles the action of bees with flowers. A less known mutual arrangement is the inhabiting of molluscs by bacteria. The mussel provides a sheltered environment, but feeds on the bacteria. Yet enough are permitted to survive to allow them to reproduce and infest other mussels. As Combes notes, "Who is exploiting whom?" It's a big question, since "parasites" make up more than half the planet's biomass and human beings are subject to more parasites than any other species.
Not all parasites are microscopic nor even small. One of the more recognised "parasites" are the cuckoos of Europe and cowbirds of North America. Both lay eggs in the nests of other species. These, in turn, have sometimes learned to recognise the intruder's eggs and cast them from the nest, or the nest is abandoned with the mating pair relocating to a new site. Less commonly known is a tapeworm inhabiting whale intestines. Combes declares it to be the longest creature living - at 40 metres!
All these elements are presented in a beautifully written [thank you, David Simberloff for an excellent translation] and effectively illustrated book covering a topic many would avoid. They shouldn't. Given that parasites are so complex and prevalent they are creatures and lifestyles we need to know more about. [stephen a. haines - Ottawa, Canada]
List Price: £34.95
Our Price: £30.19
By OUP Oxford
List Price: £8.99
Our Price: £8.99
Author:
Carl Zimmer
By Arrow Books Ltd
Hippity hop! Where to stop?, 2004-11-14
Once considered a "degenerate" form of life, parasites are being seen as important indicators of how evolution has progressed over 4 billion years. Zimmer credits them with being the driving force for biological diversity. He substantiates this claim with a sweeping, evocative survey of what is known today about parasites. That, he regretfully concedes, is little enough. What is known is that many early conceptions about parasites needed to be thrown aside as more information about this highly adaptable and widely variable range of organisms emerges.While we may recoil at the term "parasite", Zimmer identifies but one villain in this book. Ray Lankester, a devoted Edwardian-era evolutionist, postulated that parasites were a "regressive" form of organism. He thought they shed evolutionary advantages as they simplified their bodies through their life cycles. Lankester thus set the tone for generations - biologists avoided studying parasites as offering no additional information revealing evolution's processes. Zimmer explains that since parasites are predators, it was thought they ought to follow the patterns of other predators - stalking prey like lions, or following scent gradients like sharks. Instead, as more about them came to light, it was revealed how adaptive parasites are. Some, in fact, have developed the talent of making "prey" come to them. One fluke invades a snail early in its career. In an intermediate, but distinctive form, it then moves to an ant. Residing in the ant's brain, at some point it directs the ant to climb a grass stalk. There it waits for the grass, along with the ant and itself, to be eaten by a cow. The fluke cruises through the cow's stomach before taking up residence in the liver as adults, yet another body form. When the eggs are produced, they return to the intestinal tract to be later deposited on the ground, awaited by the snails. Looking at each phase, residing in a different host, you would be inclined to see it as a separate species. This note is but one of the endless chorus of parasite adaptations Zimmer relates in this excellent book. He joins the refrain of older scientists lamenting the lack of upcoming researchers needed in parasite studies. Unlike the animals we see around us, most parasites have astonishingly varied body forms as they go through the phases of their life cycles. For years, this catalog of body plans was thought to display different species. Only recently has it been demonstrated that these creatures changed shape and function dramatically as they changed living environments. Identifying each stage, the invader's function there, the impact on the host and other elements requires long, patient and dedicated work. Those of us in the urban world think we can keep parasites at a distance, flooding our farms and wetlands with chemicals to fend them off. This is false confidence, Zimmer reminds us. Parasites are the most adaptable forms of life on the planet. They are as likely to promote change as respond to it. Zimmer cites Robin Dunbar's thesis that grooming for parasites ultimately allowed humans to develop speech and language. He explains how our immune systems and parasites enter a modus vivendi that allows the parasite and host alike to survive. Recognising how that process evolved could lead to better coexistence through "taming" the invaders. Coexistence with these minute creatures turns out to have many implications. It's now clear that the development of agriculture made human society vulnerable to invaders unknown on the savannah. Human bodies became less robust and mortality rates rose. How far back in time have they had influences on us and what are those? Zimmer suggests that some monkeys have developed "manners" in resource or mate competition. They scream and cavort, but don't scratch or bite rivals for fear of bloodworm infection. Others use particular leaves to clear digestive tracts of infestations. We hear of researchers seeking "genes for" schizophrenia, homosexuality, even "gods". Zimmer thinks we're looking in the wrong place. Instead, he urges, we should identify the "flukes for" these and other aspects of human behaviour and form. [stephen a. haines - Ottawa, Canada]
List Price: £45.99
Our Price: £39.99
Author:
Larry S Roberts, Jr., John Janovy
By McGraw-Hill Higher Education
Excellent introduction to parasitology, 2006-10-07
I am a Biochemist looking to pursue a career in parasitology research, so I bought this book as an introduction. Having read through about 15 chapters far, I have to say I think it is excellent. The book has a few introductory chapters on symbiosis and parasite ecology explaining the basic terms, and then moves onto basic immunology, and examples of evolutionary adaptations to infection by the host, and to the immune response by the parasite. Chapter 4 explains taxonomy of protazoan parasites very clearly, which is really important for understanding the later chapters.
Then the chapters of the book move on to describe different parasites by Phylum or Class, starting with the Kinetoplasta class which includes trypanosomes and leishmanias. Each species is described in terms of general background, morphology and life history, pathogenesis, immunology, diagnosis and treatment and epidemiology and control.
This not only is an excellent resource for researchers in parasitology, but also I suspect medical doctors would find it useful in diagnosis, and perhaps epidemiologists involved in public health policy too.
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