RESUMO
Morfogênese das galhas induzidas por Baccharopelma dracunculifoliae (Hemiptera, Psyllidae) em folhas de Baccharis dracunculifolia (Asteraceae). A galha entomógena mais comum em folhas de Baccharis dracunculifolia (Asteraceae) é induzida por Baccharopelma dracunculifoliae (Hemiptera, Psyllidae). O inseto galhador ataca tanto folhas jovens não distendidas quanto as completamente distendidas. Quatro fases de desenvolvimento foram observadas nesse tipo de galha: 1) Fase de dobramento, na qual o limbo dobra-se ao longo da nervura central e devido à aproximação das margens, uma fenda é formada na porção superior da folha. Uma câmara única está presente na face adaxial da lâmina foliar; 2) Fase de intumescimento, em que a folha dobrada torna-se espessada e suas margens aproximam-se, fazendo com que a fenda se estreite. Nesta fase, a galha está madura, suculenta e fusiforme, apresentando coloração verde claro. A câmara ninfal abriga de 1 a vários indutores e é recoberta por cera branca; 3) Fase de deiscência, caracterizada pela abertura da fenda, liberando os indutores; e 4) Fase de senescência, quando torna-se escura e seca. O sistema de revestimento da galha madura é formado por epiderme uniestratificada. O mesofilo apresentou-se intumescido, devido principalmente à hiperplasia do tecido parenquimático. Na nervura central, os tecidos vasculares mostraram-se conspícuos e as fibras perivasculares com aspecto semelhante ao de células parenquimáticas. Nas cavidades secretoras hipertrofiadas, o conteúdo lipofílico era escasso. Nessa galha não se formou tecido nutritivo, mas foram vistas bainhas salivares deixadas pelos indutores junto ao parênquima, aos feixes vasculares e às cavidades secretoras. Os estudos feitos complementam as informações sobre a biologia da galha e contribuem para a compreensão da plasticidade dos tecidos vegetais estimulados por fatores bióticos.
Assuntos
Animais , Baccharis/parasitologia , Hemípteros , Tumores de Planta/parasitologia , Folhas de Planta/parasitologiaRESUMO
The commonest insect gall on Baccharis dracunculifolia (Asteraceae) leaves is induced by Baccharopelma dracunculifoliae (Hemiptera, Psyllidae). The gall-inducing insect attacks young leaves in both the unfolded and the fully expanded stages. Four developmental phases were observed in this type of gall: 1) A folding phase, during which the leaf lamina folded upward alongside the midrib and the edges of the upper portion of the leaf approached each other, forming a longitudinal slit. A single chamber was formed on the adaxial surface of the leaf; 2) A swelling phase, in which the folded leaf tissues thickened and the edges of the leaf drew closer together, narrowing the slit. In this phase the gall matured, turning succulent, fusiform and pale green. The single nymphal chamber was lined with white wax and was able to house from one to several nymphs; 3) A dehiscence phase, characterized by the opening of the slit to release inducers; and 4) A senescence phase, when the gall turned dark and dry. The dermal system of the mature gall was composed of a single-layered epidermis. The mesophyll was swollen, and the swelling was due mainly to hyperplasia of the parenchyma. The vascular tissues along the midrib vein were conspicuous and the perivascular fibers resembled parenchymal cells. The hypertrophied secretory cavities contained low lipophylic content. This gall does not form nutritive tissue, but salivary sheaths left by the inducers were observed near the parenchyma, vascular bundles and secretory cavities. This study complements our current knowledge of gall biology and sheds further light on the plasticity of plant tissues stimulated by biotic factors.
Assuntos
Baccharis/parasitologia , Hemípteros , Tumores de Planta/parasitologia , Animais , Folhas de Planta/parasitologiaRESUMO
The leaf mine in Richterago riparia is caused by a lepidopteran larva (lepidopteronome). The leaves of R. riparia show campdodrome venation; the epidermis is unistratified, with stomata and glandular trichomes in adaxial and abaxial surfaces. The mesophyll is bilateral and the vascular system is collateral. During the formation of the mine, the larva consumes the chlorenchyma of the mesophyll and the smaller vascular bundles (veins of third and fourth orders). Structural alterations in the tissues of the host plant were not observed, except for the formation of a wound meristem and the presence of cells with phenolic substances next to the mine. Three cephalic exuviae of the miner were found in the mesophyll. This lepidopteronome is parenchymatic and the epidermis remains intact, but forms a protective layer for the mining insect.
Assuntos
Asteraceae/parasitologia , Lepidópteros/fisiologia , Folhas de Planta/anatomia & histologia , Animais , Brasil , Larva/microbiologiaRESUMO
The leaf mine in Richterago riparia is caused by a lepidopteran larva (lepidopteronome). The leaves of R. riparia show campdodrome venation; the epidermis is unistratified, with stomata and glandular trichomes in adaxial and abaxial surfaces. The mesophyll is bilateral and the vascular system is collateral. During the formation of the mine, the larva consumes the chlorenchyma of the mesophyll and the smaller vascular bundles (veins of third and fourth orders). Structural alterations in the tissues of the host plant were not observed, except for the formation of a wound meristem and the presence of cells with phenolic substances next to the mine. Three cephalic exuviae of the miner were found in the mesophyll. This lepidopteronome is parenchymatic and the epidermis remains intact, but forms a protective layer for the mining insect
Assuntos
Animais , Asteraceae , Lepidópteros , Folhas de Planta , Brasil , LarvaRESUMO
Methods for double staining plant materials using astra blue and basic fuchsin are described here. These methods can be applied to free hand and microtome sections embedded in paraffin, paraplast or historesin. Also, they can be used to study isolated epidermal peels and pollen preparations. Temporary, semipermanent and permanent preparations were studied. Astra blue stained polysaccharides of the cell wall such as cellulose and pectins. Basic fuchsin showed an affinity for lignified, suberized or cutinized walls. The easy preparation of the reagents, excellent color contrast of the histological preparations, and brief staining times of some methods makes them useful for both routine research and didactic purposes. Also, excellent color or black and white photomicrography can be obtained after the double staining described here.