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Differential utilization of nutrients during development by the xylophagous leafhopper,Homalodisca coagulata (1995)

Brodbeck, Brent V. ; Andersen, Peter C. ; Mizell, Russell F.

Springer

Entomologia experimentalis et applicata 75 (1995), S. 279-289

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ISSN: 1570-7458

Keywords: amino acids ; ammonia ; assimilation ; carbon utilization ; Homalodisca coagulata ; ingestion ; nitrogen utilization ; polyphagy ; xylem ; xylophages

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Utilization of nutrients at different stages of development was examined for the xylophage,Homalodisca coagulata (Say). Survivorship and consumption rates of second-instar, fourth-instar and adult leafhoppers were measured daily on the hostsLagerstroemia indica L. andEuonymus japonica Thumb. Rates of consumption, assimilation efficiencies and daily assimilation of nitrogen, carbon, and individual organic compounds were calculated based on chemical analyses of xylem fluid and insect excreta. Gross growth efficiencies of diet utilization were also estimated by comparing biomass of young adults to estimates of nutrient utilization of the two host species. Different instars survived and utilized nutrients at varying rates on the two hosts. Second-instar leafhoppers survived at higher rates and utilized nitrogen more efficiently onE. japonica than onL. indica. However, assimilated nitrogen was much less as a result of lower consumption rates. In contrast, adults onL. indica had increased longevity, utilized carbon more efficiently, and assimilated higher quantities of both carbon and nitrogen than those onE. japonica. Efficiencies of nutrient utilization were high forH. coagulata compared to folivores or phloem feeders, particularly in the conversion of ingested nutrients to assimilated compounds. Variations in diet utilization during development are discussed in terms of polyphagy.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02382264

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Metabolism of amino acids, organic acids and sugars extracted from the xylem fluid of four host plants by adult Homalodisca coagulata (1989)

Andersen, Peter C. ; Brodbeck, Brent V. ; Mizell, Russell F.

Springer

Entomologia experimentalis et applicata 50 (1989), S. 149-159

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ISSN: 1570-7458

Keywords: amino acids ; ammonia ; ammonotelism ; high performance liquid chromatography ; Homalodisca coagulata (Say) ; inorganic elements ; metabolism ; metabolic efficiency ; organic acids ; phony peach disease ; Pierce's disease ; plum leaf scald ; potential energy gain ; sugars ; xylem feeder ; xylem fluid

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Description / Table of Contents: Résumé L'efficacité du métabolisme des amino-acides, des acides organiques et des sucres a été quantifiée chez des H. coagulata Say (Hom. Cicadellidae) adultes, en comparant la composition chimique de la sève du xylème et du miellat des insectes. Les cicadelles ont été maintenues dans des sachets de parafilm avec des tiges de 4 plantes hôtes: Baccharis halimifolia L., Lagerstroemia indica L., Prunus salicina Lindl. et Prunus persica Batsch. Le taux de consommation (0,09 à 0,27 ml hr−1), l'osmolarité du miellat (7,8 à 12,8 mM) et la composition du miellat (principalement des éléments inorganiques) sont caractéristiques des consommateurs de xylème. Les concentrations organiques totales en soluté de la sève du xylème étaient respectivement: 9,4; 13,8; 5,5; et 1,8 mM chez B. halimifolia, L. indica, P. salicina et P. persica. 19 amino acides protéiques, 7 acides organiques et 3 ou 4 sucres ont été identifiés dans la sève du xylème. Les acides aminés, les acides organiques et les sucres ont été métabolisés dans leur ensemble avec une efficacité de 99%. La glutamine, l'asparagine, l'arginine et les acides citrique, malique et succinique,-les principaux composés organiques de la sève du xylème de ces 4 plantes,-ont été métabolisés avec plus de 99% d'efficacité. La cystéine (51%), la méthionine (74%) et l'acide oxalique (77%) ont été métabolisés avec une plus faible efficacité. Le déchet azoté primarie était NH inf4 sup+ ; l'acide urique et lurée n'ont pas été décelés. La fixation d'azote a été généralement inférieure à 60% de l'azote consommé. Des taux de consommation élevés, l'ammonotélisme et une efficacité extrêmement élevée du métabolisme des composés organiques permettent à H. coagulata de survivre malgré la composition chimique biaisée et la dilution de la sève du xylème.

Notes: Abstract The efficiency of amino acid, organic acid and sugar metabolism was quantified for adult Homalodisca coagulata (Say) (Homoptera: Cicadellidae) by comparing chemical profiles of xylem fluid (food source) and insect exudate. Leafhoppers were confined in Parafilm® sachets to stems of 4 host plants: [Baccharis halimifolia (L.), Lagerstroemia indica (L.), Prunus salicina (Lindl.), Prunus persica (L.), Batsch]. Insect feeding rates (0.09–0.27 ml h−1), exudate osmolarity (7.8–12.8 mM) and exudate composition (mainly inorganic entities) were characteristic of a xylem feeder. Total organic solute concentration in the xylem fluid of B. halimifolia, L. indica, P. salicina and P. persica was ca. 9.4, 13.8, 5.5 and 1.8 mM, respectively. Nineteen protein amino acids, 7 organic acids and 3 or 4 sugars were identifid in the xylem fluid. Total amino acids, organic acids and sugars were metabolized with ca. 99% efficiency. Glutamine, asparagine, arginine and citric, malic and succinic acids, the predominant organic compounds in the xylem fluid of all four plant species, were metabolized with greater than 99% efficiency. Cysteine (51%), methionine (74%) and oxalic acid (77%) were metabolized with the lowest efficiency. The primary nitrogenous waste was NH inf4 sup+ ; uric acid or urea were not detected. Nitrogen retention was generally less than 60% of dietary nitrogen. High feeding rates, ammonotelism and an extremely high metabolic efficiency of organic compounds permit H. coagulata to subsist on the dilute and skewed chemical profile of xylem fluid.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00365399

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