Coleoptera: Chrysomelidae: Cassidinae: Leptispini) Kaniyarikkal Divakaran Prathapan1, Caroline S

Coleoptera: Chrysomelidae: Cassidinae: Leptispini) Kaniyarikkal Divakaran Prathapan1, Caroline S

Zoological Studies 48(5): 625-631 (2009) Natural History and Leaf Shelter Construction of the Asian Rice Leptispa Beetle Leptispa pygmaea Baly (Coleoptera: Chrysomelidae: Cassidinae: Leptispini) Kaniyarikkal Divakaran Prathapan1, Caroline S. Chaboo2,*, and Kolandaivelu Karthikeyan3 1Department of Entomology, Kerala Agricultural University, Vellayani P.O., Trivandrum 695 522, Kerala, India E-mail:[email protected] 2Division of Entomology, Natural History Museum, and Department of Ecology & Evolutionary Biology, 1501 Crestline Dr., Suite 140, University of Kansas, Lawrence, KS 66049-2811, USA. E-mail:[email protected] 3Regional Agricultural Research Station, Kerala Agricultural University, Pattambi, Palakkad 679 306, Kerala, India E-mail:[email protected] (Accepted January 15, 2009) Kaniyarikkal Divakaran Prathapan, Caroline S. Chaboo, and Kolandaivelu Karthikeyan (2009) Natural history and leaf shelter construction of the Asian rice leptispa beetle, Leptispa pygmaea Baly (Coleoptera: Chrysomelidae: Cassidinae: Leptispini). Zoological Studies 48(5): 625-631. The leaf-roll construction by the Asian rice leptispa beetle Leptispa pygmaea Baly (Cassidinae: Leptispini) was studied. Consistent adult feeding on the adaxial side of tender rice leaves Oryza sativa Linnaeus (Poaceae) induces partial upward rolling of the leaf lamina. Adult leaf rolls are ephemeral and not apparent, and they unfurl once the beetle leaves the leaf. Females oviposit clutches of up to 8 eggs mostly on the adaxial side of the leaf within such rolls. Neonate larvae migrate to the base of the leaf axil and feed by scraping, which induces formation of leaf rolls from the base where the leaf is already curled up. All 5 larval instars feed in this manner, migrating to new leaves and forming new leaf rolls. Pupation occurs within the leaf roll of the 5th instar. Adult leaf rolls are partial and ephemeral, and therefore offer only limited protection to eggs and adults. In contrast, larval leaf rolls are well formed and cohesive compared to those of adults. This is probably due to the sedentary nature and active feeding of the larvae resulting in a greater reduction in leaf turgidity. The host plant, leaf curling, and leaf-roll architecture of Leptispa Baly differ from the leaf ‘sandwiches’ built by some Neotropical cassidines, of the Imatidiini, that glue together Inga leaves (Fabaceae). Two terms, leaf rolls for Leptispini and leaf case shelters for Imatidiini, are proposed to reflect the lack of homology of these structures, although both function as shelters. We also propose that Leptispa feeding probably induces loss of turgor pressure that in turn induces inward curling of the leaf to produce an elongated leaf roll. This may be regarded as an ideal example of cost-effective shelter building by an insect. http://zoolstud.sinica.edu.tw/Journals/48.5/625.pdf Key words: Behavior, Animal architecture, Larva, Poaceae, Asia. Animal constructions can convey a wealth and wasps) are the best-known builders whose of information about the biology and behavior of constructions serve as domiciles (e.g., bird nests), the architect. The topic can be broadly appealing traps (e.g., spider webs), and displays (e.g., to both scientists and laypeople, as evidenced nests of bower birds). Constructions of many by several popular books (von Frisch 1974, animals, particularly invertebrates, remain obscure. Hansell 1984 2005 2007, Gould and Gould 2007). Among beetles, the most spectacular radiation of Birds, spiders, and Hymenoptera (ants, bees, insects, architects are rare, yet in the leaf beetle * To whom correspondence and reprint requests should be addressed. Tel: 785-864-5173. Fax: 785-864-5260. 625 626 Zoological Studies 48(5): 625-631 (2009) family Chrysomelidae (with ca. 40,000 species), L. filiformis (Germar) (Vela and de Ferrer 1994, domiciles and defensive shields built from feces Bordoni 1998), L. godwini Baly (Liao and Shen and exuvial skins are becoming better understood 1981), and L. pygmaea Baly (Maxwell-Lefroy 1906, as a common phenomenon (Chaboo et al. 2007 Fletcher 1914, Maulik 1919, Kalshoven 1951). 2008 and citations therein). In this paper, we Burlow (1899) first reported L. pygmaea report on the unique construction of leaf shelters as a pest of rice. Its life history was supposed in 1 chrysomelid species, Leptispa pygmaea Baly, to be similar to that of the rice hispa, Dicladispa commonly called the Asian rice leptispa or blue armigera (Olivier), the larvae of which are leaf beetle, which is better known as a pest of rice miners (Maxwell-Lefroy 1906, Ramakrishna (e.g., Burlow 1899, Maxwell-Lefroy 1906 1909, Ayyar 1932 1940). A brief remark by Fletcher Maulik 1913 1919, Anand 1989, Karthikeyan 2007, (1914: 314) is the first accurate clue to its natural Karthikeyan and Jacob 2008). history: “The eggs are laid on paddy leaves Animal constructions indicate many aspects and the grubs also feed on the upper surface of of the ecology and evolution of the builder, and the leaves, the attacked leaves usually folding can affect other taxa in a community. Animals over so as to hide the enclosed grub. The grub, invest considerable expenses of time, energy, and when full-fed, pupates on the leaf, the beetles secretions in making constructions (Hansell 1984), emerging after about 4 days”. A leaflet published so one can hypothesize that such constructions by the Department of Agriculture, Madras, India might improve the survivorship of individuals (Anonymous 1931) states that “The grub, however, in ecological time and perhaps of clades over is not flattened and does not mine in the leaves but evolutionary time. Other insects build leaf shelters, feeds from the surface of the leaf”. Fletcher (1917) e.g., some pyralid moths (Solís 2007) and some illustrated the adult and immature stages. Dalvi et weevils (Horváth 1988, Vogt 1992); leaf shelters al. (1985a b), Patel and Shah (1985a), Karthikeyan were shown to be ideal microenvironments, (2007) and Karthikeyan and Jacob (2008) studied simultaneously providing domiciles, herbivorous its life history and reported the durations of various feeding sites, and concealment from enemies (e.g., life stages as 3-7 d for eggs, 6-14 d for larval Cappuccino 1993). They even offer secondary instars, 2-5 d for pupae, and 12-24 d for the total habitats for other animals thereby enhancing life cycle. Later researchers examined the natural species diversity on a given host (Vogt 1992, enemies (Fletcher 1917, Patel and Shah 1985 a Martinsen et al. 2000). Within the Chrysomelidae, b, Karthikeyan 2007) and grasses (Poaceae) as leaf shelter building occurs in 2 clades of the alternate hosts in India (Cotes 1896, Maxwell- Cassidinae (tortoise beetles): the Neotropical tribe Lefroy 1906 1909, Maulik 1919, Khanvilkar Imatidiini Hincks (Gilbert et al. 2001) and the Old et al. 1983, Dalvi et al. 1985a, Dale 1994, World tribe Leptispini Weise 1911 (Maulik 1919, Karthikeyan 2007). Anand (1984 1986 1989) also Voronova and Zaitsev 1982). indicated L. pygmaea as a pest of sweet potato The Leptispini comprises 2 genera, Leptispa (Convolvulaceae: Ipomoea batatas (L.) Lam) and Baly and Ovotispa Medvedev (Medvedev 1992). sugarcane (Poaceae: Saccharum officinarum L.). Ovotispa contains a single species, O. atricolor Today, L. pygmaea is regarded as a pest of rice on Pic, whereas Leptispa comprises 71 known the Indian subcontinent that often reaches serious species that are found only in the Old World levels, thereby necessitating chemical control (Maulik 1939, Uhmann 1958, Würmli 1975, Jolivet measures (Swamiappan et al. 1990, Nadarajan and Hawkeswood 1995, Chaboo 2007). They 1996, Karthikeyan 2007). are known to use host plants in the families Since Fletcher’s (1914) description, no further Cyperaceae and Poaceae (Maulik 1939, Jolivet information has been added to our knowledge and Hawkeswood 1995). Their biology is poorly of leaf roll construction by Leptispa. We were known, with limited reports available for only 8 stimulated to more deeply analyze the interesting species. Voronova and Zaitsev (1982) described L. natural history of Leptispa in an effort to improve bambusae Voronova and Zaitsev, L. bicoloripennis our understanding of evolutionary patterns within Voronova and Zaitsev, L. conicicollis Voronova and the subfamily Cassidinae. This is the first report on Zaitsev, and L. medvedevi Voronova and Zaitsev our study of Leptispa. Morphological descriptions as pests of bamboo in Vietnam. Brief notes are of immature stages are provided elsewhere. available for L. pici Uhmann (Chen 1973, Chen et al. 1986, Kimoto and Takizawa 1994 1997), Prathapan et al. – Leptispa pygmaea Baly, Natural History 627 MATERIALS AND METHODS formation of leaf rolls were collected through a series of observations using field-collected The study was carried out in rice fields at the specimens and untreated potted rice plants at the Farming Systems Research Station, Karamana, College of Agriculture, Vellayani, India. Plants Trivandrum, Kerala, India (Fig. 1). Living L. were of 2 ages in the tillering stage: 39 d (leaf pygmaea was studied by one of us [PKD] on width of 7.0-9.0 mm) and 52 d (leaf width 8.5-10.1 several visits during the period of Jan. to Oct. mm) after sowing. 2007, which includes the south-east and north- Observation 1: Many gravid females were west monsoon seasons and intermittent dry spells. confined to plants in cages so that they would Experimental plots of rice at different growth oviposit. Emerging neonate larvae hatching out of stages in the station provided an ample scope these eggs were observed. for observing the insect, except during the hot Observation 2: A pair of larvae (instars 2-4) summer. Here, rice is grown as a transplanted were each placed medially on the adaxial side of crop in wetlands with the application of chemical 20 fully emerged leaves of 39-d-old seedlings, and fertilizers and pesticides. Lepstipa activity was the time required to form a leaf-roll was recorded. easily noted by the presence of leaf rolls containing Observation 3: Single larvae (instars 2-4) eggs, larvae, pupae, adults and feeding scars (Figs.

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