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The influence of environmental variables on the density of larval lampreys in different seasons (1986)

Potter, I. C. ; Hilliard, R. W. ; Bradley, J. S. ; [et al.]

Springer

Oecologia 70 (1986), S. 433-440

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ISSN: 1432-1939

Keywords: Ammocoetes ; Lamprey ; Environmental variables ; Density ; Geotria

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The objective of the study was to identify a subset of a set of twenty environmental variables which could explain variations in the density of larval lampreys (Geotria australis) in a south-western Australian stream. Generalised linear modelling, assuming Poisson distributions for the larval counts, led to a different model for each of the four seasons, with variations in larval density being explained in each season by a combination of between five and eight environmental variables. The influence of stream region also had to be taken into account in the model for winter. Four environmental variables (substrate organic material and chlorophyll a, macrophyte roots and low-angle shading) were present in three of the four seasonal models. A further six variables (water depth, substrate depth and profile, medium-sized sands, light intensity, and the presence of an eddy) were each found useful for two models. Two variables (current velocity and substrate profile) were each retained in one model. Eight of the twenty variables were not required for any of the seasonal models. The importance of organic material, shade, eddies, current velocity substrate particle size and a sufficient depth of substrate in our models agree with the largely subjective assessments of larval lamprey habitats made in the field by many previous workers for other lamprey species in diverse geographical localities. Our finding that larval density increased with increases in organic material and unicellular algae in the substrate and with shade, contrasts with the results of a different model based on data collected in a northern European stream. These differences can be related to our use of a more rigorous and comprehensive sampling regime and a more appropriate form of statistical analysis.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00379508

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Oxygen consumption and responses to hypoxia of ammocoetes of the southern hemisphere lampreyGeotria australis (1987)

Galloway, R. ; Potter, I. C. ; Macey, D. J. ; [et al.]

Springer

Fish physiology and biochemistry 4 (1987), S. 63-72

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ISSN: 1573-5168

Keywords: oxygen consumption ; body weight ; temperature ; hypoxia ; ventilatory frequency ; ammocoetes ; metamorphosis ; lampreys ; Geotria australis

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The standard rate of oxygen consumption of ammocoetes (larvae) ofGeotria australis with a mean weight of c. 0.5 g was 9.6, 31.4 and 59.4μl g−1 h−1 at 4.5, 15.5 and 25.0°C respectively, which gives an overall Q10 of 2.4. The regression coefficient for the logarithmic relationship between oxygen consumption and body weight at 15.5°C was 0.704. The ammocoetes ofG. australis have a much lower rate of oxygen consumption at 15.5 and 25.0°C than those of holarctic lampreys. This presumably reflects the lower oxygen delivery pressure to their tissues and helps account for their slow growth rate. At 15.5°C, ammocoetes ofG. australis emerged from the substrate at 21–25 mm Hg and, unlike those of the Northern HemisphereIchthyomyzon greeleyi, died at 14–17 mm Hg. Thus, despite having a thinner water/blood barrier in the gills and blood with a higher oxygen affinity and capacity than holarctic ammocoetes, the larvae ofG. australis cannot survive very low dissolved oxygen tensions. This is apparently related to an inability of larvalG. australis to meet the high oxygen requirements of the respiratory pump at these oxygen tensions. During metamorphosis, oxygen consumption at 15.5°C rose from approximately 27μl g−1 h−1 at the beginning of transformation to 33.2μl g−1 h−1 by Stage 3 and then rapidly to 66μl g−1 h−1 at Stage 6. It remained near this level in Stage 7 and the downstream migrant.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02044315

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