DESCRIPTION OF THE OVA AND OVIPOSITIONAL STRATEGIES OF SIX STERRHINE TAXA FROM MADRID , INCLUDING COMPARATIVE DATA WITH OTHER SPECIES OF THIS SUBFAMILY ( LEPIDOPTERA : GEOMETRIDAE : STERRHINAE )

Original data are presented which describe ova of the following six taxa in the Sterrhinae Meyrick, 1892: Idaea litigiosaria (Boisduval, 1840), Idaea sericeata calvaria Wehrli, 1927, Idaea ochrata albida (Zerny, 1936), Idaea incisaria (Staudinger, 1892), Idaea cervantaria (Millière, 1869) and Scopula (Glossotrophia) asellaria dentatolineata Wehrli, 1926. Subsequent analysis of SEM imaging provides data related to the chorion structure, as well as that associated with the strategies adopted by females at oviposition under laboratory conditions; comparative data are provided of other European sterrhines.

Idaea mancipiata (Staudinger, 1871) Ova laid in small groups or in twos adhered to the substrate; axis horizontal to substrate, Rumex acetosella, for example.
♀ 7.X.07 (GK506MA); Wiltshire (1962) 1858).Salkeld (1983) does not establish any synapomorphy with reference to the ova of the sterrhines.However, amongst the Cosymbini Prout, 1911 and the Timandrini Stephens, 1850, these could include circular-shaped polygonal cells ('areolae' according to Downey & Allyn, 1984) without there being a regular pattern as such; in the rosette at the anterior pole one finds a uni-cellular polygonal row which surrounds the pole.In amongst the Scopula analysed, the positioning of the polygonal cells follows a 'columnar pattern'; in addition in the chorion itself, the cell margins are 'steep' rather than 'gentle'.Young (2006) gave a full description of the ovum of S. perlata (Walker, 1861) from southern Australia; pointing out the egg as being 'marked on all surfaces by flat, quadrate cells arranged longitudinally on wider lateral sides, with length-wise walls relatively broad, elevated, forming prominent length-wise ribs; transverse walls non-elevated, barely discernible; cells on anterior pole irregular polygons, concave with moderately broad walls overlain with a very narrow shallow reticulum.Aeropyles very inconspicuous, slightly elevated, openings very small, distributed on anterior pole only.Chorion smooth, overlaid with a mesh-like reticulum'.
The bibliography which deals with the European, and by extension, Mediterranean, Sterrhine ova or egg deposition is not extensive, with data in Salkeld (1983), Ebert & Steiner (2001), Sannino & Espinosa (1999, 2002), in addition to King (2014) (Lythria sanguinaria (Duponchel, 1848) (Fig. 3) (see Table 1).Hausmann et al. (2007) include a SEM image of the ovum of the Macaronesian species: I. nigra Hausmann & Bläsius, 2007.This present paper aims to provide original morphological data of the ova of the relatively poorlyknown Mediterranean sterrhine fauna of a limited number of taxa, in addition to data of the ovipositional strategies adopted under laboratory conditions; comparative data are also given for other European species.
The sterrhines are an interesting moth sub-family, especially in the Mediterranean region where they are well-represented faunistically (Hausmann, 2004).This is due to their adaptation to the prolonged summer drought, with most species spending an inordinate length of time in the larval stages, as well as to their ability to deal with dessicated or otherwise sub-standard vegetation.Additionally, the majority of species adopt phenological strategies to cope with the harsh climate (Covell, 1983;Hausmann, 2004), for example, species which are monovoltine tend to emerge in early May allowing the larvae to feed up slowly over the summer as low plant foliage senesces, taking advantage of new plant growth available once rains arrive in the late autumn.This is the case with Idaea ochrata albida (Zerny, 1936), additionally, females of this taxon scatter their ova whilst in flight, leaving the neonates to find food sources at ground level (Rennwald, 1993;Hausmann, 2004).

Material and methods
Female moths were generally taken at rest during the day in a variety of anthropogenically altered locations in Madrid (or Zaragoza) (Table 2) (railway stations, for example) (I.incisaria, I. longaria, I. cervantaria), or captured, having been disturbed during the day, or at dusk, with a standard butterfly net (I.litigiosaria).Only one taxon is diurnal (I.sericeata calvaria) (Hausmann, 2004).One taxon: S. (G.) asellaria dentatolineata was taken at rest on gypsum outcrops.
Female sterrhine moths are not demanding in terms of conditions to be adopted in the laboratory when referring to oviposition requirements (Friedrich, 1986); nevertheless, contact with plant material (stems, flowers, roots) does facilitate the event (Ebert & Steiner, 2001;Hausmann, 2004).Regarding I. incisaria (Staudinger, 1892), I. longaria and I. cervantaria (Millière, 1869), these taxa laying ova individually or in rows or small heaps, or even on the walls of a plastic container (King, 2013).I. ochrata is different in that the female drops the ova whilst in flight so that they scatter, which reflects what they do in the wild (Rennwald, 1993).Females of Scopula (Glossotrophia) rufomixtaria (Graslin, 1863) and Scopula (Glossotrophia) asellaria dentatolineata (Wehrli, 1926) tend to ignore sprigs of the food-plant provided and lay eggs individually or in small groups or even clusters, on the walls of the plastic container, although the presence of the plant could be acting as a stimulant to produce eggs.On the other hand, both Rhodometra sacraria (Linnaeus, 1767) and Casilda consecraria (Staudinger, 1871), do lay individually or in twos or threes on the food-plant provided, especially on the flowers (King, 2013).Ova thus obtained were kept at ambient room temperature with no special requirements until the moment of eclosion (incubation times refer to time taken from moment of oviposition until first neonates were noted, with the rider that not all ova eclose at once, but over several days).
Eggs collected were stored in 70% ethanol in Eppendorf vials.
Images obtained by SEM involved attaching the eggs (70-100% ethanol gradient beforehand) on to carbon adhesive discs which were adhered to stubs (those already hatched could be attached directly to the carbon discs without having gone through different alcohol gradients), these were then subject to being bathed in gold using a Quorum Q150TS, the images themselves being taken with a SEM model Amray 1810 (10 kV).Images were taken either at the Universidad de Concepción (Chile) or at the Universidad Autónoma de Madrid.

Discussion and conclusions
Original data have been provided on the structure of the ova of six sterrhine taxa, in addition, biological data have been given which deal with ovipositional strategies in relation to the substrate.With reference to three taxa: I. litigiosaria, I. sericeata calvaria and I. ochrata albida data were available (Chrétien, 1899a(Chrétien, , 1899b;;Kristensen, 1966;Rennwald, 1993;Ebert & Steiner, 2001), although with the latter taxon this data referred to the nominotypical I. ochrata (Scopoli, 1763).
OVIPOSITIONAL STRATEGIES: The little data that is available on the strategies adopted by European sterrhines is summarised in Table 1 which includes observations of 34 taxa with 21 (=61.8%) in the tribe Sterrhini Meyrick, 1892.Although the data available may be an artifact having been influenced by the conditions under which females were kept in captivity, there are three categories which can be recognised: ova scattered, ova laid individually, or ova laid in groups of varying units.It can be seen (Table 1) that only the Sterrhini are known to 'scatter' their ova including six taxa for which there are data available: I. flaveolaria, I. sericeata calvaria, I. macilentaria, I. ochrata, I. ochrata albida and I. bigladiata, of these six taxa, four taxa seem to be facultative (see Table 1) in terms of whether they 'scatter' their ova or adhere them to a substrate.In addition, all these taxa are diurnal exclusively, or combine nocturnal and diurnal flight patterns (Ebert & Steiner, 2001;Hausmann, 2004;King, personal observations), with the possible exception of C. ramosaria a diurnal species which adheres ova to a substrate (Table 1).In the Scopulini Duponchel, 1845, it would appear that most species oviposit individually, although only eight European species are detailed in Table 1.Nevertheless, Peterson (1968) mentions two Nearctic species that do oviposit at random (see text above).
Oviposition strategies would reflect how the neonate would be expected to find food, as well as what plant and in what condition it might be expected to be (Zalucki et al., 2002), in this way, if the female scatters its ova (as is the case with the two taxa in this study) larvae would take advantage of geophytes in a generalised way, and by the time eclosion occurs we can also expect senescence to be already advanced in plants that we would expect them to attack.Sterrhines are solitary feeders, so the fact that some taxa do oviposit in groups, albeit in neat rows on dry stalks (as is the case with three taxa in this study), would suggest that it is not so much larval feeding strategies but energy saving by the egg-laying female that is the overriding factor.Those that lay in more limited numbers, I. litigio saria (two to three), or individually (or in limited groups or clusters) (S. asellaria dentatolineata), presumably do so in order to avoid overcrowding, or in the case of the latter taxon, because it is oligophagous attacking a limited number of scrophulariates (or labiates), Antirrhnum majus, for example; in the wild state, imagines are to be found in the vicinity of this latter plant, so presumably lay on it (King & Viejo Montesinos, 2010).
MOrphOlOgy Of the Ova: According to Salkeld (1983) (Table 3 groups the six taxa analysed in this paper in the same way) the chorion of Idaea ova can be divided into two categories: 'netted' and 'ridged'; the same author also stated that oviposition mode does not correlate with the chorion category.Salkeld (1983) indicated that the eggs of Scopula (of the four species he analysed) follow the same, or very similar, chorion pattern the only taxon in this genus analysed in the present paper, S. asellaria dentatolineata, does not belong to the 'ridged' chorion group, but in a general way, to Salkeld's 'netted' category.The chorion of I. cervan taria also exhibits a less 'pronounced' ' nettedness'.The recently described I. nigra (Hausmann et al., 2007), which included a SEM image of the ovum, might be included in the category of 'ridged' chorion, although it should be stated, that the particular form it shows would require a more detailed analysis, i.e. that it does not follow the pattern established by Salkeld (1983).

Table 2 .
-Localities in Madrid (and Zaragoza) which provided females (and ova as a result).