A new distribution and host record for the rare moth, Callioratis millari (Lepidoptera: Geometridae), and some ecological observations

Abstract Callioratis millari Hampson (Lepidoptera: Geometridae) is a Critically Endangered moth endemic to South Africa. Despite extensive searches, it was previously known only from the Entumeni Nature Reserve in KwaZulu-Natal, where its larvae exclusively feed on the cycad Stangeria eriopus (Kunze) Baill (Cycadales: Stangeriaceae). In July 2022, a new population of C. millari was discovered in the Kabouga section of Addo Elephant National Park in the Eastern Cape. Larvae of C. millari were feeding on the cycad Encephalartos caffer (Thunb.) Lehm (Cycadales: Zamiaceae), which also constitutes a new host record. In June 2023, we determined larval incidence and herbivory at this new locality, offering insights into the ecological requirements of C. millari. Known C. millari localities, although ecologically different, share low altitudes (700–950 m a.s.l.), moderate to high rainfall, and grassy habitats with sparse woody cover. A total of 59 larvae were counted in Kabouga, mostly in the fifth and sixth (final) instars. Herbivory incidence was lower on smaller plants and those covered by other vegetation. The flight period of adult C. millari likely occurs between mid-March and April in Kabouga, but further investigation is needed to clarify this. The peak period of larval occurrence in Kabouga occurs during the driest and coldest months of the year (May–July). Considering limited habitat availability, host plant poaching, and the risk of untimely fires, the species should be considered highly threatened. This study adds to our understanding of the biology of C. millari and provides information on its ecological requirements and may contribute to making informed management decisions.

The presence of these herbivores raises interesting conservation concerns since they depend on rare plants that occur in fragmented landscapes.Cycads are among the world's most threatened organisms, facing critical challenges due to habitat loss, poaching, and reproductive failures caused by the extinctions of pollinators (Mankga andYessoufou 2017, Janse van Rensburg et al. 2023a).Diminishing cycad populations also endanger their specialist Environmental Entomology, 53(2), 2024, 305-312 https://doi.org/10.1093/ee/nvae008Advance Access Publication Date: 10 February 2024 Research herbivores (Oberprieler 1995, Janse van Rensburg et al. 2023a).While some Diptychini, e.g., Zerenopsis lepida (Walker), have demonstrated the ability to expand their range to cultivated cycads, which also facilitates expansion to new wild cycad populations with potentially deleterious effects (Janse van Rensburg et al. 2023b), others rely exclusively on a single cycad host or locality.As a result, their survival depends on the health of their host populations and habitat.Therefore, Diptychini species are often of greater conservation concern than their threatened cycad host plants (Bayliss et al. 2009).For example, the threatened Callioratis grandis Prout only exists in a particular area of Mount Mulanje in Malawi, making its range much more restricted than its host, Encephalartos gratus Prain (Bayliss et al. 2009, Staude et al. 2011).
Notably, C. millari is considered the rarest moth in South Africa and is listed as Critically Endangered in the COREL (Custodians of Rare and Endangered Lepidoptera) program of the Lepidopterist' Society of Africa (Edge 2011, Mecenero et al. 2020).It was originally discovered in an area near Durban, KwaZulu-Natal, which has since succumbed to urban development, leading to the extinction of C. millari in that area in 1928.Until recently, it was only known to still occur in one locality, the Entumeni Nature Reserve (Entumeni) in KwaZulu-Natal where it faces severe threats in the form of host plant poaching and untimely fires (Staude 2001, Louw and Armstrong 2018, Terblanche 2018).Despite extensive searches in KwaZulu-Natal grassland areas that contain viable populations of its cycad host, Stangeria eriopus (Kunze) Baill, no additional C. millari populations have been located (Staude 2001).Larvae feed on leaves of S. eriopus that grow in the open grassland patches, but not on S. eriopus plants under the surrounding Forest canopy cover (Staude 2001).In captivity, larvae accepted leaves of the cycad Encephalartos villosus Lem, but no larvae have been found on E. villosus, which occurs only under the Forest canopy cover in Entumeni (Staude 2001).Therefore, C. millari appears to have specific vegetation-cum-habitat (habitat) requirements, which may contribute to its rarity (Staude 2001).
In this article, we report a new locality and host plant for C. millari in the Eastern Cape province.On 11 July 2022, we encountered larvae of an unidentified Diptychini moth feeding on the leaves of the cycad E. caffer (Thunb.)Lehm.within a grassy Fynbos patch in the Kabouga section of Addo Elephant National Park (AENP) (Kabouga) (Fig. 1a).Collecting 1 final-instar larva, we observed its pupation shortly thereafter.The resulting adult moth emerged on 28 March 2023 and was later identified as C. millari (Fig. 1b).Populations of Encephalartos lehmannii Lehm.and E. longifolius (Jacq.)Lehm.are present within a 10-km radius of the population of E. caffer (Bezuidenhout 2015), but we did not record C. millari on these plants.Another Diptychini species, Z. lepida, also occurs in Kabouga, and we documented its occurrence on both E. lehmannii and E. longifolius.
The life-history and habitat requirements of C. millari remain poorly understood.In this article, we compare the habitats of the current distribution localities and historical type locality of C. millari, aiming to clarify some aspects of its habitat requirements.Additionally, we conducted surveys to assess the incidence of larvae and herbivory by both C. millari and Z. lepida at Kabouga to obtain preliminary ecological information about these species and to assess potential competition between C. millari and Z. lepida.

Callioratis millari Localities
The historical type locality for C. millari was near the railway stations of Kloof, Gillitts, and Hillcrest near Durban (Fig. 2a).However, this area has undergone urban development, leading to the destruction of the original grassland habitat (Staude 2001).It has not been recorded in this area since 1928 (Staude 2001).Following its disappearance in the type locality, C. millari was rediscovered in Entumeni in 1997, which lies approximately 120 km further north (Fig. 2a).Adults and larvae of C. millari are restricted to 3 open Grassland patches (within 5 km of each other) in and around Entumeni, surrounded by Scarp Forest (Staude 2001, Louw andArmstrong 2018).
The locality of the newly discovered population of C. millari is 750 km south of Entumeni and is located in the Kabouga section of the AENP (Fig. 2a).The AENP is divided into 8 sections that are Bird and St Croix Island group, Woody Cape, Colchester, Addo Main Camp, Nyati, Kabouga, Zuurberg, and Darlington.Encompassing approximately 26,000 ha, Kabouga stretches along both sides of Sundays River, extending north to the Darlington section and eastward to the Zuurberg section.Kabouga consists of Sundays River, including the floodplains, Kabouga Thicket, Quarzitic grassy Fynbos, Fynbos, Kabouga Shrubland, Grassland, Forest, and Degraded vegetation plant communities (adapted from Van Wyk et al. 1988).We recorded C. millari in the Quarzitic grassy Fynbos, where the larvae were feeding on E. caffer individuals (Fig. 2b).The E. caffer population is relatively large (>200 individuals) and occurs in a small area (3.9 ha).
The habitat of the C. millari population in Kabouga is located on a steep south-facing upper midslope of the Zuurberg mountain at an altitude of ~950 m a.s.l.(Supplementary Table A1; Supplementary Material).The C. millari and E. caffer populations are strongly associated with the Quarzitic grassy Fynbos plant community and are surrounded by patches of Forest, Grassland on the north-facing midslopes and Fynbos on the relatively lower altitudes (Van Wyk et al. 1988, Bezuidenhout 2015).Unlike other grassy Fynbos areas, the winter months are the driest (Van Wyk et al. 1988).Thunderstorms are common during the summer months, leading to lighting fires.Both Entumeni and the original type locality are situated at slightly lower altitudes (~700 m a.s.l.).The C. millari population in Entumeni is found in Moist Coast Hinterland Grassland, surrounded by Scarp Forest (Rutherford et al. 2006).The vegetation consists of tall grassland dominated by Cymbopogon nardus (L.) Rendle with a high diversity of flowering forbs (Louw and Armstrong 2018).The original type locality is within the KwaZulu-Natal Sandstone Sourveld (Grassland) and is also surrounded by patches of Scarp Forest (Rutherford et al. 2006).The vegetation would have consisted of a species-rich grassland with scattered shrubs, including Proteaceae species (Rutherford et al. 2006).
The plant communities where C. millari occurs in Kabouga and the KwaZulu-Natal localities receive summer rainfall, with Kabouga receiving lower rainfall than the KwaZulu-Natal localities (Rebelo et al. 2006, Rutherford et al. 2006).However, we only recorded C. millari along with its host on a steep south-facing upper midslope in Kabouga, where moisture levels are higher (Van Wyk et al. 1988, Rebelo et al. 2006).Frequent mist also contributes to higher moisture levels in the E. caffer population in Kabouga compared to lower down in the Zuurberg Valley bottomlands, where it can get dry.The Kwazulu-Natal localities experience slightly higher maximum temperatures, but the minimum temperatures at all the localities can be below 5 °C in the winter months, but compared to the Kabouga locality, frost incidence is less frequent in the KwaZulu-Natal localities.The geology of the E. caffer Kabouga locality consists of white quarzitic sandstone and subordinate shale of the Witpoort Formation of the Witteberg Group and is dominated by Rock, Cartref (soil depth 0.3-0.5 m; 10%-20% clay content) and Mispah soil forms (Visser et al. 1989, Land Type Survey Staff 2004).The plant communities at the KwaZulu-Natal localities also have welldrained rocky/sandy soil, with the Mispah and Glenrosa soil forms often recorded (Soil Classification Working Group 2001, Rutherford et al. 2006).
Both host plant species, E. caffer at Kabouga, and S. eriopus at Entumeni, are small cycads with subterranean stems and deciduous or semideciduous leaves (Whitelock 2002).Encephalartos caffer is listed as near threatened (A2cd; B2ab (iii,v)), and Stangeria eriopus is listed as vulnerable (A2acd + 4acd), both having a declining population size (Bösenberg 2022a(Bösenberg , 2022b).However, the E. caffer population of Kabouga is considered healthy, with adult and juvenile plants as well as seedlings recorded during a recent survey (Bezuidenhout and Erusan 2018).Encephalartos caffer is sometimes found growing among quarzitic sandstone rocky outcrops (Bezuidenhout 2017).This may be the result of the protection offered by the surrounding rocks against the effects of natural veld fires, associated with the Zuurberg mountain range, on young plants, although it was noted that they grow more effectively after fire incident in the closed Quarzitic grassy Fynbos plant community.
Encephalartos lehmannii occurs within 5 km of the E. caffer population in Kabouga and E. longifolius within 20 km (Fig. 2c).Encephalartos lehmannii and E. longifolius mostly occur at low altitudes in Kabouga Thicket and Shrubland (Edwards 1983, Van Wyk et al. 1988, Hoare et al. 2006).These areas receive much lower rainfall and are characterized by short Kabouga thickets (Edwards 1983).the presence of Z. lepida on plants was confirmed (Janse van Rensburg et al. 2022).The incidence of herbivory was not recorded during the initial surveys.

Incidence of Larvae and Herbivory in Kabouga
Between 26 and 29 June 2023, we conducted further surveys of the cycads in the Kabouga and the adjacent Darlington sections of AENP.Encephalartos caffer population occurs in a relatively small area (3.9 ha), and we surveyed as many cycad individuals as possible.The E. longifolius and E. lehmannii populations occur in a large area, and our efforts focused on surveying individuals that were not surveyed in 2022.We visited 142 E. caffer plants (estimated 50% of the population), but unfortunately due to bad weather, we could only visit 34 E. lehmannii and 33 E. longifolius plants.Surveys of each individual plant involved a 5-min visual inspection of the top and bottom of each leaf to identify eggs, larvae, and signs of herbivory.The number of eggs and larvae was recorded, distinguishing between Z. lepida and C. millari based on descriptions of Staude (2001) and Staude and Sihvonen (2014).We recorded the incidence of herbivory (percentage of cycad individuals exhibiting signs of herbivory) and indicated when individuals were severely damaged (>50% of leaf area removed).Since no other herbivores were recorded feeding on the cycad leaves, all observed herbivory was attributed to the 2 moth species.

Impact of the Apparency of Cycad Individuals on the Incidence of Herbivory
We also asked whether the apparency of cycad individuals affected the incidence of herbivory.The apparency of cycad individuals can be influenced by various factors, such as the plant size and density of other plant species covering individual cycads (Janse van Rensburg et al. 2023b).Encephalartos caffer individuals were categorized, based on size, into 3 groups: large adult plants (>6 large leaves), medium-sized plants and juveniles (<6 large leaves), and seedlings (2-3 small leaves).Similarly, E. lehmannii and E. longifolius individuals were classified as large (large multistemmed plants), medium (single-stemmed plants), and small (stemless seedlings and juveniles).The canopy cover of the other plant species was scored as dense (completely canopy-covered with foliage from other plants), intermediate (partially canopy-covered), and sparse (no canopy cover from surrounding plant species) (Edwards 1983).We used chi-square analysis to compare the incidence of herbivory between different individual sizes and levels of canopy coverage provided to cycad individuals by the associated plant species.

Incidence of Larvae and Herbivory in Kabouga
In accordance with the initial surveys (Janse van Rensburg et al. 2022), no eggs or larvae from C. millari were observed on E. longifolius or E. lehmannii individuals.One Z. lepida egg cluster, containing 258 eggs, was recorded on E. lehmannii.Zerenopsis lepida eggs are easy to distinguish from C. millari, which has larger eggs and occurs in small egg clusters with up to 7 eggs (Staude 2001).
Callioratis millari larvae were recorded on 25.35% of the inspected E. caffer individuals (Table 1).Larvae mostly occurred solitarily.Of the E. caffer individuals with larvae present, the mean was 1.64 larvae per cycad individual, with 71.43% cycad individuals having only one larva (Table 1).In rare cases, up to 7 larvae were recorded on an individual plant, although they occurred on separate leaves, and no gregarious behavior was observed.Based on the descriptions provided by Staude (2001), most of the recorded larvae were in the fifth and sixth (final) instars.Larger larvae chewed on leaf edges, while smaller instars scraped the leaf surfaces, often causing the surrounding leaflet area to die and turn brown.No E. caffer individuals with new, soft leaves were observed, and all C. millari larvae appeared capable of consuming the older, tougher leaves.We also did not find any larvae feeding on plant species other than E. caffer.
Many of the E. caffer individuals (76.06%) showed some signs of herbivory by C. millari.However, only 2.81% of the individuals showed signs of severe herbivory, whereby more than 50% of a leaf flush was destroyed.The general incidence of E. longifolius and E. lehmannii cycad individuals that exhibited herbivory by Z. lepida was lower (<50%) than that recorded for C. millari on E. caffer individuals, but the incidence of severely damaged individuals of E. lehmannii and E. longifolius was higher than those of E. caffer.

Impact of the Apparency of Cycad Individuals on the Incidence of Herbivory
We found no significant difference between the proportion of each size class covered by dense, intermediate, or sparse vegetation (χ 2 = 7.511, P = 0.111), suggesting that smaller cycad individuals were not more likely to be covered by other vegetation.The proportion of cycad individuals with signs of leaf herbivory increased with increasing plant size for both C. millari (χ 2 = 19.465,P < 0.001) and Z. lepida (χ 2 = 7.775, P = 0.021) (Table 2).Encephalartos caffer individuals that were overgrown by other plants had a significantly lower incidence of leaf herbivory by Callioratis millari (χ 2 = 13.766,P < 0.001), whereas no significant effect was observed for Z. lepida on E. longifolius and E. lehmannii individuals (χ 2 = 2.577, P = 0.276).Instances of E. lehmannii or E. longifolius individuals being entirely covered by surrounding vegetation were infrequent due to their large size.

Notes on the Phenology and Life History of C. millari
A detailed comparison of C. millari density between Kabouga and Entumeni is challenging due to the completion of only 1 yr of surveys in Kabouga and published sources on Entumeni lack detailed information.However, with the available data, the larval density in Kabouga appears comparable to previously recorded counts during egg and larval surveys of C. millari in Entumeni, which equates to approximately 1 egg or larva for every 3 cycad individuals surveyed (Louw and Armstrong 2018).The flight period also seems similar between Kabouga and Entumeni.Callioratis millari appears to be univoltine, and its flight period in Entumeni was previously reported to start in mid-April, lasting for approximately 3 wk (Staude 2001).Larval stages take approximately 2.5 months to complete (Staude 2001).Our surveys in Kabouga were conducted by the end of June when most of the larvae were in their last instars.Therefore, it would appear that the period of C. millari moth activity in Kabouga starts by the end of March or early April, similar to what was reported in Entumeni.However, this would need to be confirmed through surveys during that period.This would mean that the flight period of C. millari coincides with the latter part of the season when rainfall and temperatures are lower (around April for both localities) and that the peak period of larval occurrence is during the driest and coldest months of the year (May-July).This flight period is similar to the univoltine C. mayeri Staude, which feeds on the cycad E. friderici-guilielmi Lehm., also in the Eastern Cape province (Staude 2001).However, it differs from the majority of other Diptychini species that feed on cycads since they are typically bivoltine or multivoltine, being present for more extended periods of the year (Staude 2001, Staude andSihvonen 2014).Staude (2001) did not record final-instar larvae of C. millari on S. eriopus in Entumeni and indicated that C. millari may have a secondary host plant, similar to other Diptychini, and that secondary host plant requirements could contribute to the species' rarity.Supporting this, Staude (2001) found that final-instar larvae of C. millari accepted leaves of Diospyros lycioides Desf.(Ebenaceae) and flower petals of Tropaeolum majus L. (Tropaeolaceae) in captivity.It is worth mentioning that D. lycioides is a secondary host plant for several Diptychini species (Staude and Sihvonen 2014).However, in Kabouga, we found the final-instar larvae only on E. caffer individuals and not on any of the surrounding plant species.These neighboring species include various forbs such as Erica adunca Benth., E. demissa Klotzsch ex Benth., E. pectinifolia Salisb., Gnidia anthylloides (L.f.) Gilg, Oedera imbricata Lam., Metalasia muricata (L.) D. Don, Podalyria burchellii DC., Leucospermum cuneiforme (Burm.f.) Rourke, and Leacadendron salignum P.J. Bergius.Among the grasses noted were Themeda triandra Forssk., Diheteropogon filifolius (Nees) Clayton, Tristachya leucothrix Trin.ex Nees, Eragrostis curvula (Schrad.)Nees, E. capensis (Thunb.)Trin., Trachypogon spicatus (L.f.) Kuntze, Sporobolus centrifugus (Trin.)Nees, and Alloteropsis semialata (R.Br.)Hitchc.Additionally, the restioid Restio triticeus Rottb.and sedges like Tetraria cuspidata (Rottb.)C.B.Clarke and Ficinia Schrad.species were noted (Van Wyk et al. 1988).Callioratis millari may not have secondary host plant species in Kabouga, thus completing its entire life cycle on its cycad host plant.We also observed that larvae easily consumed the old leaves of E. caffer, although further confirmation is needed to determine whether the first instars could also consume old leaves.
We also investigated the relationship between the apparency of cycad individuals and herbivory.We found that more apparent individuals (individuals that are larger and covered by sparse vegetation) had a higher incidence of herbivory.Observations at Entumeni also indicated that C. millari avoided individuals growing under the Forest canopy, despite the higher abundance of cycad individuals under the Forest canopy cover (Staude 2001).Callioratis millari may be sensitive to factors like shading from canopy cover or increased foliar density that impedes larval movement.Other Diptychini species have also been demonstrated to have a higher affinity for larger cycad plant species or individual cycads that are sparsely covered by other vegetation (Bayliss et al. 2009, Janse van Rensburg et al. 2023b).This could be the case for the majority of Diptychini since they are diurnal moths, which most likely use visual cues in addition to cycad plant volatiles to locate host plants.Exceptions include C. abraxas Felder that prefer cycad individuals growing under a forest canopy and that are covered by dense foliage (Staude 2001).

Habitat Requirements of C. millari
The cycad host plants of C. millari have a much wider occurrence, suggesting that host plant constraints are unlikely the main cause of the rarity of C. millari.With 2 known localities and the historic type locality, it was possible to make some initial comparisons.The habitats are associated with different plant communities, but there are some key similarities.All habitats have an open woody canopy cover within a grassy habitat, surrounded by patches of Forest.The open woody canopy cover could play a significant role in C. millari movement and host finding.While lek mating behavior has not yet been observed for C. millari, it is worth noting that several Diptychini exhibit this behavior, and the adjacent Forest patches might be necessary for providing suitably tall trees for lek localities.All habitats also have a diverse range of flowering plants that could serve as nectar sources for adult moths.Although the rainfall at Kabouga is lower than that at the other localities, the rainfall at this site is not low (>400 mm).Also, within Kabouga, C. millari and its host were only recorded on south-facing upper midslopes, which is wetter than those facing north due to morning dew persisting until noon on the south-facing midslopes.Due to this, grassy Fynbos generally occur on the south-facing upper midslopes at this locality, while the north-facing upper midslopes become Grassland (Van Wyk et al. 1988, Rebelo et al. 2006).
Although healthy populations of E. lehmannii and E. longifolius occur within 10 km of the E. caffer population, we did not record C. millari on these cycad individuals.Most of these individuals occur in a habitat that contrasts with that of the E. caffer population, consisting of Kabouga Thicket and Kabouga at lower altitudes and with lower rainfall (Bezuidenhout 2015).The Kabouga Thicket and closed Kabouga Shrubland vegetation structure of the E. lehmannii and E. longifolius populations may be unsuitable for C. millari.However, many of the E. longifolius individuals also occur at similar altitudes as the E. caffer population, although it is associated with warmer northern facing steep upper midslopes of the Zuurberg mountain range.The quartzite outcrop habitat is dominated by a sparse Woodland of large individuals of E. longifolius with fewer grasses and more forbs species than described for the E. caffer locality of the Quartzite grassy Fynbos plant community.Furthermore, the physical leaf traits of E. longifolius may pose a challenge for early instar C. millari larvae.The young leaves of E. longifolius are finely tomentose, and the old leaves become very tough and leathery.It is uncertain whether C. millari larvae can consume these leaves, and this would need to be confirmed with rearing experiments.Encephalartos caffer individuals have small leaves and leaflets that are easily consumed by the mature larvae of C. millari.This may be an important requirement for C. millari since we did not find any secondary host plant species.Both E. caffer and S. eriopus are reported to be deciduous or semi-deciduous (Whitelock 2002) and possibly do not invest as much in leaf toughness as a result.The availability of new leaves is not always abundant, and without secondary host plant species, the food supply of C. millari may be too limited in cycad species that have old leaves that are too tough for C. millari to consume.
In addition to deciduous leaves, both E. caffer and S. eriopus have subterranean stems (Whitelock 2002).This may further indicate similarities between the habitats of C. millari in Kabouga and Entumeni.Cycads with deciduous leaves are typically found in grassy habitats that experience frequent fires (Whitelock 2002).During the summer months, thunderstorms are common in Kabouga, and the accumulated moribund biomass may cause fires (Van Wyk et al. 1988).Several studies have shown the importance of fire for Lepidoptera conservation (e.g., Vogel et al. 2007, Gaigher et al. 2018).Similarly, the natural fire cycle will likely have a very important role in maintaining the habitat of C. millari by preventing the buildup of woody vegetation, especially considering C. millari lays eggs on cycad individuals in open areas without canopy cover.Furthermore, fire may benefit the host plant of C. millari by stimulating the production of new leaves and cones (Cousins and Witkowski 2017).
However, burning at the wrong time of the year may have potential negative consequences.Diapausing pupae below the soil may be protected from lightning fires that occur during the summer months.Since the larvae of C. millari are present during the winter months, they may avoid fire; however, they could be adversely affected if fire occurs between April and July.Similarly, reports have indicated that indiscriminate fires during May adversely affected C. millari in Entumeni (Louw and Armstrong 2018).To prevent negative impacts on C. millari, it is suggested that if the burning of the Entumeni localities is required, these events should take place late in the season (end of August or September) (Louw and Armstrong 2018).

Competition Between Z. lepida and C. millari in Kabouga
Although we have not observed Z. lepida on E. caffer individuals, it is known to be one of its host plants (Donaldson and Bösenberg 1995).It is, therefore, unlikely that the population of E. caffer in Kabouga is an unsuitable host population for Z. lepida.It is more likely that the Z. lepida population within Kabouga reaches its peak periods of activity at different times of the year, as we also only managed to record a single Z. lepida egg cluster in the E. lehmannii and E. longifolius populations during this period.Although Z. lepida is multivoltine, Staude and Sihvonen (2014) indicated 2 peak flight periods of Z. lepida in mid-summer and autumn, and records in June and July are generally scarce.Zerenopsis lepida activity is also generally absent from habitats that are colder and prone to frost during winter months (Janse van Rensburg et al. 2023b).Differences in peak flight periods and periods of larval activity between Z. lepida and C. millari indicate that there may be little competition between these 2 species in Kabouga as they avoid a temporal overlap.However, Entumeni, which experiences less frost, may have a greater abundance of Z. lepida in the winter months than Kabouga.This hypothesis, however, needs to be tested.

Conclusions
The discovery of a new locality and host has significant implications for the ecology and conservation of C. millari: 1.The discovery of C. millari 750 km from the previously known localities indicates that its range is wider than previously thought.Despite extensive searches in KwaZulu-Natal, additional C. millari populations have not been located since the discovery of the Entumeni locality in 1997 (Staude 2001).
Encephalartos caffer is a fairly common cycad species with numerous subpopulations in the Eastern Cape and an isolated subpopulation in KwaZulu-Natal.The distribution of S. eriopus also extends into the Eastern Cape.Therefore, further surveys in the Eastern Cape will be crucial since the presence of C. millari in other localities in this province may have been overlooked.Identifying other populations will allow a better comparison of habitats and a better understanding of habitat requirements.2. The discovery of the new locality and host record adds to our understanding of its biology and provides valuable information on the ecological requirements as well as ecological preferences of C. millari and may ultimately contribute to informed management decisions.3. The discovery of the new locality may also impact the conservation status of C. millari.It seems to be thriving in the newfound Kabouga locality; however, it is a small area and is vulnerable to stochastic events like untimely fires.Furthermore, given the ecological requirements of C. millari and the threat of poaching of their cycad host plants, this species warrants classification as highly threatened.Fortunately, Kabouga falls within a protected area, enhancing the conservation prospects of C. millari.The discovery of a rare moth within the AENP also adds to the conservation value of the national park.For conservation purposes, it is necessary to carefully monitor and protect the areas of occurrence.4.This discovery presents an opportunity for further research, including the investigation of factors contributing to the rarity of C. millari and its life history to aid management decisions.It may also be important to establish the phylogenetic relationship between the Kabouga and Entumeni populations of C. millari, as well as investigate the host specificity of both populations.Staude (2001) determined, in rearing experiments, that the C. millari population in Entumeni accepts E. villosus leaves in captivity.Thus, it may potentially accept E. caffer as host, and the Kabouga population potentially may accept S. eriopus as host.Alternatively, both may exhibit host specialization at a population level and only accept hosts from their respective areas, which could suggest the presence of cryptic species.This possibility warrants further investigation.

Fig. 2 .
Fig. 2. a) Current localities of Callioratis millari and the historical type locality; b) map of the Encephalartos caffer population in Kabouga in relation to the surrounding plant communities (adapted from Van Wyk et al. 1988); c) approximate localities of Encephalartos species in the Darlington, Kabouga, and Zuurberg sections of Addo Elephant National Park.
We recorded C. millari for the first time during surveys of arthropod diversity associated with Encephalartos species in AENP in July 2022 (Janse van Rensburg et al. 2022).During these initial surveys, we visited approximately 200 E. longifolius, 50 E. lehmannii, and 50 E. caffer plants (Janse van Rensburg et al. 2022).Callioratis millari was not found on E. longifolius or E. lehmannii, although

Table 1 .
Incidence of Callioratis millari and Zerenopsis lepida egg clusters and larvae per cycad individual and incidence of leaf herbivory

Table 2 .
Percentage of cycad individuals from each size and canopy cover category showing signs of herbivory.Data for Encephalartos lehmannii and E. longifolius individuals were pooled because of the small sample size for the 2 cycad species and because they are impacted by the same moth species 2 = 2.577, P = 0.276