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Galls in rhizome of an aquatic macrophyte, Eichhornia azurea (Swartz) kunth (Pontederiaceae), in Jataí Ecological Station, Luiz Antônio, SP, Brazil

NOTE AND COMMENTS

Galls in rhizome of an aquatic macrophyte, Eichhornia azurea (Swartz) kunth (Pontederiaceae), in Jataí Ecological Station, Luiz Antônio, SP, Brazil

Peláez-Rodríguez, M.I; Trivinho-Strixino, S.II; Urso-Guimarães, M. V.III

IPrograma de Biología con Énfasis en Biorrecursos, Universidad de la Amazonía, Av. Circunvalar, Barrio El Porvenir, Florencia (Caquetá), Colombia

IIDepartamento de Hidrobiologia, Universidade Federal de São Carlos, Rodovia Washington Luís (SP-310), km 235, CEP 13565-905, São Carlos, SP, Brazil

IIIDepartamento de Biologia, FFCLRP, USP, Av. Bandeirantes, 3900, CEP 14900-401, Ribeirão Preto, SP, Brazil

Correspondence Correspondence to Peláez-Rodríguez Programa de Biología con Énfasis en Biorrecursos, Universidad de la Amazonía Av. Circunvalar, Barrio El Porvenir Florencia (Caquetá), Colombia e-mail: mapelaez1@hotmail.com

There are several reports of galls in plants of most environments throughout the world (Felt, 1994; Mani, 1964; Gagné, 1989, 1994; Fernandes et al., 1988, 1997b). On the other hand, few authors have reported gall in aquatic macrophytes (Gagné, 1989; Fernandes & Lara, 1997a).

Aquatic macrophytes are an important biotope for many invertebrates, mainly insects. During all or part of their life cycles, a significant number of these insects use macrophytes as habitats for reproduction, for protection against predators, and as food resources (Trivinho-Strixino et al., 2000; Stripari & Henry, 2002). Eichhornia azurea (Sw.) Kunth (Pontederiaceae), a common macrophyte in floodplain lakes, rivers, and natural or artificial lakes, is largely distributed on the American continent, from south of the United States to Argentina (Pereira da Silva & Segadas-Vianna, 1971). In this note we describe the first gall found in rhizomes of E. azurea.

Diogo Lake is situated in Jataí Ecological Station (Luiz Antônio district), in the Mogi-Guaçu River, northeastern São Paulo State. The river presents a sinuous surface in its middle section, associated with numerous typical horseshoe lagoons connected or disconnected from its main channel. Diogo Lake measures 0.69 km2, 1.35 m in depth, and is permanently linked to the river channel. E. azurea is the dominant macrophyte in this lake and in some periods can totally cover the water surface. Most of the year the rhizomes of this plant are submerged, but during the dry season when the water level decreases, the rhizomes of E. azurea begin to appear.

The galls found in the rhizomes of E. azurea are induced by a new species of cecidomyiid (Cecidomyiidae: Diptera) illustrated in this paper. Oviposition and larval development cause enlargement of the infected area in the rhizome and a small change of natural color (Fig. 1). The gall maker belongs to a new species of the Lopesiini tribe of Cecidomyiinae subfamily whose identity will be soon determined. Although its life cycle has not been yet totally determined, it is known that oviposition in the rhizome occurs in the dry period (June to September). Fig. 2 shows an opened gall with larva inside. The larva (a), pupa (b), male (c), and female (d) of the new species of Cecidomyiinae is shown in Fig. 3.


Remarkable characters of larva in this new species are: enlarged and long spatula with two strong teeth; thoracic segments with six lateral papillae in three groups: inner group with two setose papillae, one asetose papillae in the middle, and two setose and one asetose papillae in the outer group on each side of spatula (Fig. 4); three stubby papillae on each side of midline in the terminal segment; anus on the ventral side (Fig. 5). In pupa, the main features are a short antennal horn; absence of upper and lower frontal horns; presence of a sclerotized zone with strong spines in the distal margin of tergites; and a sclerotized projection in the terminal segment (Fig. 6). The adult characters of taxonomic value are the antenna with twelve flagellomeres, binodal with three loops of circumfila, the loops having different lengths in males (Fig. 7) and being cylindrical with circumfila appressed in females (Fig. 8); the apical flagellomere in males and females has a budlike extension (Fig. 9); two-segmented palpi (Fig. 10), absence of first tarsomere spur, tarsal claw simple, bent near base, and longer than empodia; entire abdominal tergites in males and females, ovipositor with separated cerci and hypoproct as in Fig. 11; male terminalia (Fig. 12): gonocoxite larger than longer; gonostyle positioned in the apical portion of gonocoxite, enlarged in proximal portion tapering to apex, apex with entire tooth; hypoproct bilobed; aedeagus longer than hypoproct.


Acknowledgments— The authors are grateful to FAPESP (Proc. # 01/11055-3), Dr. R. J. Gagné (Smithsonian Institution/USDA), and the engineer L. P. Sabogal-Paz.

REFERENCES

FELT, E. P., 1994, Plant galls and gall makers. Comstock, Ithaca, NewYork, vii + 364p.

FERNANDES, G. W., TAMEIRÃO-NETO, E. & MARTINS, R. P., 1988, Ocorrência e caracterização de galhas entomógenas na vegetação do Campus Pampulha da Universidade Federal de Minas Gerais. Revista Brasileira de Zoologia, 5(1): 11-29.

FERNANDES, G. W. & LARA, A. C. F., 1997a, Leaf galls on an aquatic macrophyte, Nymphoides indica (Nympheaceae), in Rio Doce Valley, Brazil. Bios, 5: 65-67.

FERNANDES, G. W., ARAÚJO, R. C., ARAÚJO, S. C., LOMBARDI, J. A., PAULA, A. S., LOYOLA Jr., R. & CORNELISSEN, T. G., 1997b, Insect galls from savanna and rocky fields of the Jequitinhonha valley, Minas Gerais, Brasil. Naturalia, 22: 221-224.

GAGNÉ, R. J., 1989, The plant-feedings gall midges of North America. Ithaca, Comstock, New York, xi + 356p.

GAGNÉ, R. J., 1994, The gall midges of the neotropical region. Cornell University Press, Ithaca, New York, xiv + 352p.

MANI, M. S., 1964, Ecology of plant galls. The Hague, Netherlands, Dr. W. Junk, 604p.

PEREIRA DA SILVA, J. D. & SEGADAS-VIANNA, F., 1971, Flora ecológica de restingas do sudeste do Brasil. XIX, Pontederiaceae. Universidade Federal de Rio de Janeiro, Museu Nacional, 29p.

STRIPARI, N. L. & HENRY, R., 2002, The invertebrate colonization during decomposition of Eichhornia azurea Kunth in A lateral lake in the mouth zone of Paranapanema River Into Jurumirim Reservoir (São Paulo, Brazil). Braz. J. Biol., 62(2): 293-310.

TRIVINHO-STRIXINO, S., CORREIA, L. C. S. & SONODA, K., 2000, Phytophilous chironomidae (Diptera) and other macroinvertebrates in the ox-bow Infernão Lake (Jataí Ecological Station, Luiz Antônio, SP, Brazil). Rev. Brasil. Biol., 60(3): 527-535.

Received April 8, 2003

Accepted July 2, 2003

Distributed November 30, 2003

(With 12 figures)

  • Correspondence to
    Peláez-Rodríguez
    Programa de Biología con Énfasis en Biorrecursos, Universidad de la Amazonía
    Av. Circunvalar, Barrio El Porvenir
    Florencia (Caquetá), Colombia
    e-mail:
  • Publication Dates

    • Publication in this collection
      15 Mar 2004
    • Date of issue
      Nov 2003
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