Tolerance of freezing in caterpillars of the New Zealand Magpie moth ( Nyctemera annulata )

In most insects known to tolerate freezing, the adaptation has been completely canalized and permanently incorporated into the genotype, either as a perennial or seasonal phenotypic switch. The exceptions to this (i.e. insects for which the adaptation is, in some manner, incomplete) represent examples of considerable evolutionary interest. To date, the few examples known of incomplete adaptation are readily identified by survival metrics. Caterpillars of the New Zealand Magpie moth ( Nyctemera annulata Boisduval) represent a previously undescribed stage in the adaptive continuum of freeze tolerant insects from freeze avoidance to tolerance: a form of freeze tolerance that is intermediate between partial and complete freeze tolerance, the relative ‘incompleteness’ of which, is only apparent using indices of extended fitness (successful metamorphosis). This intermediate form is characterized by: the capacity to mechanistically tolerate equilibrium freezing (>75% survival); a narrow survival envelope below equilibrium freezing temperatures (3–4 °C); and a limited ability to complete metamorphosis after freezing (approximately 27% emergence). The low temperature capabilities of these caterpillars provide support for the hypothesis that the capacity to mechanistically tolerate internal extracellular ice formation by freeze tolerant holometabolous insects is acquired prior to the metabolic adaptations necessary to enable continuation of the life cycle.