New York Natural Heritage Program
Stinging Rose Caterpillar Moth
Parasa indetermina (Boisduval, 1832)
Insects

Threats [-]
Known threats include habitat loss due to development and fire suppression in some habitats, although the threat of development for the remaining habitat on Long Island may be low. The suppression of fires in barrens and other dry places could cause a loss of habitat for the species and therefore a drop in population size. Conversely, a fire affecting an entire occurrence could eliminate all life stages that are present.
This species is attracted to artificial lighting. Artificial lighting can: increase predation risk, disrupt behaviors such as feeding, flight, and reproduction, and interfere with dispersal between habitat patches. In addition, many individuals die near the light source. It is not known if the impact of artificial lighting is severe, but the impact is likely greater for small, isolated populations (Schweitzer et al. 2011).
Another potential threat is persistent use of biocides such as those used to control gypsy moths (Bess 2005).

Conservation Strategies and Management Practices [-]
The best management strategy for this species is the management of the natural community or habitat where it occurs. Historically, fire has played a role in maintaining maritime grasslands. The entire occupied habitat for a population should not be burned in a single year. For example, in places where prescribed burning is used, refugia (unburned areas) are needed for many species to ensure that any life stage can survive a fire. Schweitzer et al. (2011) suggests waiting five years before burning a unit again to give the lepidopteran population a chance to recolonize and increase local populations to withstand another fire. It may also be beneficial to know the locations of rare lepidoptereans since there's a chance of losing localized populations if there are no individuals at the area set aside as refugia (Schweitzer et al. 2011).

In addition, minimizing lighting to maintain dark sky conditions would be beneficial. When lighting is necessary, it's best to use lights that emit red or yellow light because insects are generally not attracted to those colors. However, many sodium lights, which emit yellow light, are so bright that they do attract some insects. The best lighting appears to be low pressure sodium lights which have little effect on flying insects (Schweitzer et al. 2011).

Insecticide use should be avoided when possible if rare species are present. When insecticide use cannot be avoided, careful planning along with consistent rare species monitoring, can result in successful eradication of the target species without eliminating rare species. A biocontrol alternative is Bacillus thuringiensis (Btk) for some target species, such as gypsy moths. Sensitivity varies between species and it appears that most species are not sensitive to Btk approximately two weeks post-application. Since it appears that spiny rose caterpillar moths are sensitive to some biocontrols, it is important to try to time applications to minimize mortality for this species. There are two other gypsy moth biocontrols that are currently unavailable, but appear to be very effective at eliminating gypsy moths with little effect on non-target species: Gypchek (a viral preparation) and Entomophaga maimaiga (a fungus).