D. B. Carlisle scite author profile

In many if not most species of crabs (but not quite all) there is a limit to growth, when no more moulting or ecdysis is possible in normal circumstances. This condition of permanent anecdysis is known as the terminal anecdysis. In the spider crab Maia squinado, the last moult is the moult of puberty, when the animal finally attains sexual maturity, and this moult has different biometrical characteristics from the others. In Carcinus maenas, in contrast, the moult of puberty takes place when the animal is quite small and may be succeeded by about ten further moults before the terminal anecdysis begins.The immediate cause of the cessation of moulting in Maia squinado is shown to be the degeneration of the Y-organ, which secretes a moult-promoting hormone. In the absence of this gland and its secretion moulting can no longer continue. In Carcinus the Y-organ does not degenerate after the final ecdysis and the cause of the cessation of moulting is to be sought in the excessive production by the X-organ-sinus gland complex of the moultinhibiting hormone. This effectively prevents moulting from proceeding Removal of the X-organ-sinus gland complex in Carcinus allows ecdysis to continue, so that giant crabs can be produced in the laboratory by this means, and at the same time the life-span may be increased. The operation has no such effect on Maia. In either species injection of Y-organ extracts produces transiently the first signs of an approaching moult, in the form of a heightened blood-calcium level. In Carcinus repeated injection led to eventual ecdysis. The presence of the Y-organ is shown to be necessary for removal of the X-organ-sinus gland complex to stimulate moulting in Carcinus.Two separate methods of producing terminal anecdysis exist in crabs, both involving the hormones which normally regulate the moult cycle, but no reason is known for the existence of the phenomenon.

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Endocrine Control in the Crustacea

Knowles¹,

Carlisle

1956

Biological Reviews

138

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SUMMARY The hormones of crustaceans may be grouped into those which control effector organs (chromatophores, muscles) and those which control the more gradual sequences of growth, development and reproduction; they have been termed energetic and metabolic hormones respectively. Most of the known crustacean hormones originate in neurosecretory centres in the central nervous system. The sinus gland is an important part of an elaborate neurosecretory system in the eyestalk of stalk‐eyed crustaceans and in the head of sessile‐eyed forms. It is largely composed of the swollen terminations of neurosecretory fibres. Some cellular elements have also been detected, but it is not yet known whether they have a secretory function. It is generally accepted that the greater part of the secretory material in the sinus gland has been transported thither along axon fibres from cell bodies in the central nervous system, though it has been suggested that the staining reactions of the sinus gland indicate also the probability of chemical transformation, if not autochthonous secretion. After‐sinus gland ablation the cut stump of the nerve leading to it continues to accumulate secretory material. An indiscriminate use of the term X organ in the eyestalk has led to confusion. The X organ, originally described in detail by Hanstrom, is characterized by its association with a sensory papilla and by its contained concentric‐layered structures, here called ‘onion bodies’. The term X organ has been used by some authors to denote a group of neurosecretory cell bodies, the fibres of which terminate in the sinus gland. It is suggested that the sensory papilla X organ (Hanstrom's X organ) should be distinguished from the other X organs as it differs from them morphologically and physiologically. The post‐commissure organs comprise enlargements of the epineurium of two post‐commissure nerves, containing the terminations of neurosecretory fibres. They have been shown to contain chromactivating hormones. The pericardial organs comprise epineurial enlargements containing fine‐fibre terminations. They lie in the pericardial spaces and have been shown to contain substances active on the heart. The Y organ, a glandular structure which contains hormones affecting the rate of development, is located in the antennary segment of those forms which have a maxillary excretory organ and in the second maxillary segment of those which have an antennary excretory organ. Various groups of neurosecretory cells have been detected in the brain and in thoracic ganglia. The term neurohaemal organ has been proposed to denote those tissues, through which substances produced in neurosecretory cells gain ready access to the blood. The pigment pattern of any one crustacean species is fairly constant, but patterns differ in the different groups. The pigments are contained in monochromatic, dichromatic, trichromatic and tetrachromatic chromatophores. The chromactivating substances which have so far been separated from tissue extracts seem to act differentially on these chr...

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Nanometre-size diamonds in the Cretaceous/Tertiary boundary clay of Alberta

Carlisle

Braman

1991

Nature

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The ‘Queen-Substance’ of Honeybees and the Ovary-inhibiting Hormone of Crustaceans

Carlisle

Butler

1956

Nature

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Diapause, Neurosecretion and Hormones in Copepoda

Carlisle

Pitman

1961

Nature

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D. B. Carlisle

On the hormonal inhibition of moulting in decapod Crustacea II. The terminal anecdysis in crabs

Endocrine Control in the Crustacea

Nanometre-size diamonds in the Cretaceous/Tertiary boundary clay of Alberta

The ‘Queen-Substance’ of Honeybees and the Ovary-inhibiting Hormone of Crustaceans

Diapause, Neurosecretion and Hormones in Copepoda

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