The oxygen consumption rates of different life stages of the endoparasitic nematode

  • Willie van Aardt Noord-Wes Universiteit, Potchefstroom
  • Don Loots Landbounavorsingsraad,Instituut vir Graangewasse (LNR-IGG), Potchefstroom
  • Sonia Steenkamp Landbounavorsingsraad,Instituut vir Graangewasse (LNR-IGG), Potchefstroom
Keywords: Suurstofverbruikskoers, Pratylenchus zeae, Cartesiese duiker, mikrores- pirometrie, nie-anhidrobiote, post-anhidrobiote.

Abstract

The oxygen consumption rates of different life stages of the endoparasitic nematode, Pratylenchus zeae (Nematoda: Tylenchida) during non- and post-anhydrobiosisPratylenchus zeae, widely distributed in tropical and subtropical regions, is an endoparasite in roots of maize and other crop plants. The nematode is attracted to plant roots by CO2 and root exudates and feeds primarily on cells of the root cortex, making channels and openings where the eggs are deposited, with the result that secondary infection occurs due to bacteria and fungi. Nothing is known about the respiration physiology of this nematode and how it manages to survive during dry seasons. To measure the oxygen consumption rate (VO2 ) of individual P. zeae (less than half a millimeter long), a special measuring technique namely Cartesian diver micro-respirometry was applied. The Cartesian divers were machined from Perspex, and proved to be more accurate to measure VO2 compared with heavier glass divers used in similar experiments on free living nematodes. An accuracy of better than one nanoliter of oxygen consumed per hour was achieved with a single P. zeae inside the diver. Cartesian diver micro-respirometry measurements are based in principle on the manometric changes that occur in a fl otation tube in a manometer set-up when oxygen is consumed by P. zeae and CO2 from the animal is chemically absorbed. VO2 was measured for eggs (length: < 0.05 mm), larvae (length: 0.36 mm) and adults (length: 0.47 mm) before induction to anhydrobiosis. P. zeae from infected maize roots were extracted and exposed aseptically to in vitro maize root cultures in a grow cabinet at 50 % to 60% relative humidity at 28 ºC using eggs, larvae and adults. VO2 was also measured for post-anhydrobiotic eggs, larvae and adults by taking 50 individuals, eggs and larvae from the culture and placing them in Petri-dishes with 1% agar/water to dry out for 11 days at 28 ºC and 50% relative humidity. The VO2 was measured after the anhydrobiotic eggs, larvae and adults were re-hydrated for 12 hours in a high humidity atmosphere. The average VO2 value found for ten consecutive measurements during a 50 minute period of one adult using the diver technique was 32.8 nanoliter per hour. The differences between the ten VO2 values were less than 3.5 %, an indication of the accuracy of the diver measurements. The average VO2 values from ten measurements per life stage, expressed in nanolitres per hour per life stage of the pre-anhydro-biotes (eggs: 7.96; larva: 6.13; adult: 26.04) were compared with those of post-anhydrobiotes 12 hours after anhydrobiosis. The average VO2 values of the post-anhydrobiotes for the three life stages (egg: 19.34; larva: 14.17; adult: 32.86) were statistically signifi cantly higher in comparison with the pre-anhydrobiotes. The reasons for the difference are that high concentrations of metabolites, probably in the form of trehalose, accumulate during the anhydrobiosis stage to be utilized during the post-anhydrobiotic revival period. The oxygen consumption rate was also expressed in nanolitres per hour per microgram adult nematode after applying the following equation taken from the literature: M = a2 x b/16 x 1000 where M = mass (µg) of adult nematode; a = largest body width (µm); b = body length (µm). Using this equation it was found that one gram P. zeae uses 503 times more oxygen compared with one gram mammal the size of a cow. This high specifi c oxygen consumption rate (MO2 ) is a direct indication of the large metabolic damage this endoparasitic nematode can have on the metabolic substrates provided by the roots of the various plant crops it parasitize.

 

Author Biography

Willie van Aardt, Noord-Wes Universiteit, Potchefstroom
Skool vir Omgewingswetenskappe en Ontwikkeling
Published
2010-01-13
How to Cite
van Aardt, W., Loots, D., & Steenkamp, S. (2010). The oxygen consumption rates of different life stages of the endoparasitic nematode. Suid-Afrikaans Tydskrif Vir Natuurwetenskap En Tegnologie / <i>South African Journal of Science and Technology</I&gt;, 29(1), 20-29. https://doi.org/10.4102/satnt.v29i1.4
Section
Oorspronklike Navorsing