Could the asymmetrical commissure in rhynchonellide brachiopods be an adaptive trait?

“…Although the paleoenvironment in the previously mentioned scenario and those that induced the asymmetry in C. ementitum precursors were different, the physiological response may have been common in both cases, related to the origin of the asymmetry. According to Berrocal-Casero and García Joral (2023), starting from the morphogenetic plasticity of the anterior commissure present in some lineages of rhynchonellides, different palaeoenviromental factors could lead the lophophore to works in an asymmetric way because the water currents enter in the shell preferentially by only one of the two sides. This could have occurred in response to limitations in vital space for living in closely packed clusters; to prevailing or unidirectional currents as usual in reefal or para-reefal environments; and/or to living on soft substrates.…”

“…The common physiological response in these different scenarios seems to be the differential growth of the lophophore arms, which can lead to external asymmetry. The selection by adaptation of this asymmetry and its genetic assimilation would suppose the fixation of this trait giving rise to the obligate type of asymmetry, which could appear even when the palaeoenvironmental conditions are different to those that induced the adaptation (Berrocal-Casero et al, 2020b, Berrocal-Casero & García Joral, 2023, fig. 7).…”

A new asymmetric rhynchonellide from the Cretaceous of the Eastern Prebetic (Southeastern Spain)

“…Although the paleoenvironment in the previously mentioned scenario and those that induced the asymmetry in C. ementitum precursors were different, the physiological response may have been common in both cases, related to the origin of the asymmetry. According to Berrocal-Casero and García Joral (2023), starting from the morphogenetic plasticity of the anterior commissure present in some lineages of rhynchonellides, different palaeoenviromental factors could lead the lophophore to works in an asymmetric way because the water currents enter in the shell preferentially by only one of the two sides. This could have occurred in response to limitations in vital space for living in closely packed clusters; to prevailing or unidirectional currents as usual in reefal or para-reefal environments; and/or to living on soft substrates.…”

“…The common physiological response in these different scenarios seems to be the differential growth of the lophophore arms, which can lead to external asymmetry. The selection by adaptation of this asymmetry and its genetic assimilation would suppose the fixation of this trait giving rise to the obligate type of asymmetry, which could appear even when the palaeoenvironmental conditions are different to those that induced the adaptation (Berrocal-Casero et al, 2020b, Berrocal-Casero & García Joral, 2023, fig. 7).…”

A new asymmetric rhynchonellide from the Cretaceous of the Eastern Prebetic (Southeastern Spain)

Shell asymmetry in Cretaceous Cyclothyrididae (Brachiopoda): variability, ontogeny and terminology