Adults and larvae of two Leucochrysa (Leucochrysa) species (Neuroptera: Chrysopidae): descriptions, biological notes, and relationships.

This taxonomic study includes: (i) a redescription of Leucochrysa (Leucochrysa) nigrilabris (Banks) (♂ and ♀), based on the type specimen and new material and (ii) images of the Leucochrysa (L.) insularis (Walker) type, adult color polymorphism, and genital characters (♂ and ♀). For both species, it provides: (iii) descriptions of the larvae, (iv) biological notes, and (v) geographic records. Using the above information, we compare the two species with each other and with other Leucochrysa (Leucochrysa) species that purportedly are closely related. We conclude: First, the larval features of L. (L.) nigrilabris and L. (L.) insularis coincide with those previously described as characteristic of the genus Leucochrysa and its subgenus Leucochrysa. Second, based on their genitalia (♂ and ♀), larval morphology, and biology (e.g., deposition of eggs in clusters), the two species are distinct, but very closely related. And, third, L. (L.) nigrilabris and L. (L.) insularis share several characteristics with the Leucochrysa (L.) "varia-like" species; these include similar adult color polymorphisms and aspects of their larval morphology. However, their genitalia (♂ and ♀) differ significantly from those of the described L. (L.) "varia-like" species, and thus we consider the two sets of species to be distinct.

Corrigenda: Revision of the Neotropical green lacewing genus Ungla (Neuroptera, Chrysopidae). ZooKeys 674: 1-188. https://doi.org/10.3897/zookeys.674.11435.

[This corrects the article DOI: 10.3897/zookeys.674.11435.].

Revision of the Neotropical green lacewing genus Ungla (Neuroptera, Chrysopidae).

Here, Ungla Navás, 1914, a poorly known Neotropical genus is reviewed. Twenty-five valid species are recognized; seven of them are new to science: Ungla adamsisp. n., U. elbergisp. n., U. grandispiraculasp. n., U. mexicanasp. n., U. pennyisp. n., U. quchapampasp. n., U. stangeisp. n.; and five are transferred to Ungla from other genera: U. bolivari (Banks), U. chacranella (Banks), U. siderocephala (Navás), U. steinbachi (Navás), and U. banksi Tauber, new replacement name. In addition, ten new synonymies are identified. For each species, a full nomenclatural history, diagnosis, description or redescription with images, literature citations, and available information on the distribution and biology are provided. Name-bearing types were examined for each species, and images of most are included. Keys based on external features are provided for species identifications. As a result of this study, three generalizations appear: (1) The genital morphology of both males and females of Ungla species is very conserved. All species express a common structural pattern, the components of which vary only slightly among species. (2) Ungla species appear to fall into two geographically distinct groups: about one third (n=7) of the species are recorded from southern South America (specifically Argentina and Brazil) and the other approximately two thirds of the species (n=18) from more northern regions of Neotropical America [Andean and Caribbean regions, Central America, and southern Mexico (Chiapas)]. None of the species from either of the regions is known to overlap into the other region. (3) Available information on the immature stages and natural history of species in Ungla is meagre.

Larvae of five horticulturally important species of Chrysopodes (Neuroptera, Chrysopidae): shared generic features, descriptions and keys.

An expanded list of generic level larval characteristics is presented for Chrysopodes; it includes a reinterpretation of the mesothoracic and metathoracic structure and setation. Keys, descriptions and images of Semaphoront A (first instar) and Semaphoront B (second and third instars) are offered for identifying five species of Chrysopodes (Chrysopodes) that are commonly reported from horticultural habitats in the Neotropical region.

ResumoUma lista expandida das características larvais em nível de gênero é apresentada para Chrysopodes, incluindo a reinterpretação da estrutura e das cerdas do mesotórax e metatórax. Chaves, descrições e imagens do semaforonte A (primeiro instar) e semaforonte B (segundo e terceiro instares) são fornecidas para a identificação de cinco espécies de Chrysopodes (Chrysopodes) comumente encontradas em habitats hortícolas na região Neotropical.

PHENOTYPIC PLASTICITY IN CHRYSOPERLA: GENETIC VARIATION IN THE SENSORY MECHANISM AND IN CORRELATED REPRODUCTIVE TRAITS.

A genetically variable sensory mechanism provides phenotypic plasticity in the seasonal cycle of the Chrysoperla carnea species-complex of green lacewings. The mechanism functions as a switch during the pupal and early imaginal stages to determine aestival reproduction versus aestival dormancy, and it has two major components: (1) response to photoperiod and (2) response to a stimulus(i) associated with the prey of the larvae. Ultimately, the switch is based on the response to photoperiod-an all-or-nothing trait whose variation (long-day reproduction versus a short-day/long-day requirement for reproduction) is determined by alleles at two unlinked autosomal loci. In eastern North America, variation in this component of the switch differentiates two reproductively isolated "species" that are sympatric throughout the region: Chrysoperla carnea, in which both loci are homozygous for the dominant alleles that determine long-day, spring and summer reproduction and thus multivoltinism, and C. downesi, which has a very high incidence of the recessive alleles for the short-day/long-day requirement, and thus univoltine spring breeding. In contrast, geographical populations in western North America harbor variable amounts of within-and among-family genetic variation for the photoperiodic responses and also for the switch's second component-adult responsiveness to the prey of the larvae. The geographic pattern of genetic variation in the two components of the switch indicates that it is a highly integrated adaptation to environmental heterogeneity. Expression of among-family variation in the prey component of the switch is highly dependent on photoperiodic conditions and genotype (it requires a constant long daylength and the recessive short-day/long-day genotype). Thus, we infer that responsiveness to prey evolved as a modifier of the photoperiodic trait. The switch has a significant negative effect on a major determinant of fitness; it lengthens the preoviposition period in nondiapausing reproductives. This negative effect may result in temporal variation in the direction of selection, which helps maintain genetic variability in the switch mechanisms of western populations. Also, the photoperiodic and prey components of the switch are positively correlated with fecundity in nondiapausing reproductives; however, the strong influence of environmental factors-presence or absence of prey-leaves open the question whether the correlated effects on fecundity are expressed in nature.

POSTMATING REPRODUCTIVE ISOLATION BETWEEN CHRYSOPA QUADRIPUNCTATA AND CHRYSOPA SLOSSONAE: MECHANISMS AND GEOGRAPHIC VARIATION.

In laboratory tests, Chrysopa quadripunctata showed geographic variation in a postmating, prezygotic barrier to interbreeding with its sister species, C. slossonae. When paired with C. slossonae males, C. quadripunctata females from populations that are sympatric with C. slossonae (i.e. from New York and Florida) had lower incidences of fertile oviposition than those from allopatric populations (i.e. from Kansas and California). Chrysopa quadripunctata females in all interspecific pairings were inseminated, but absence of fertile oviposition was associated with the lack of sperm transfer from the bursa copulatrix to the spermatheca. The C. quadripunctata females that failed to lay fertile eggs when crossed with C. slossonae males, invariably produced viable C. quadripunctata offspring (no hybrids) within one day after the heterospecific male was replaced with a conspecific one. Thus, the barrier to hybridization may involve the ability of females to (a) distinguish between heterospecific and conspecific sperm and (b) allow the transfer of only conspecific sperm to the spermatheca. When C. slossonae females were paired with C. quadripunctata males, the incidences of fertile oviposition were high and there was no apparent geographic variation in the degree of hybridization. As with C. quadripunctata females, unsuccessful hybridization of C. slossonae females was associated with retention of sperm in the bursa copulatrix. Hybrids did not differ from intraspecific offspring in their viability or sex ratios. However, hybrids whose parents originated from sympatric populations had low fertility; thus hybrid infertility may constitute an additional barrier to hybridization. The patterns of inter- and intraspecific variation in hybridization are consistent with the notions that C. quadripunctata harbors variation in the mechanism that controls sperm movement to the spermatheca and that the evolution of reproductive isolation between C. quadripunctata and C. slossonae may include natural selection for increased expression of this mechanism.