A comparative study of four dredges used for sampling benthic macroinvertebrates in rivers

SUMMARY. After considering the large number of dredges described in the literature, four light-weight dredges were chosen for manual operation from a small boat or the bank: Irish triangular dredge, small Fast dredge, medium-sized and large Naturalist's dredges. The dredges were tested in a series of trials at three sites in two rivers. A stratified random sample (number of sampling units, n = 5) was taken at each site and the modal particle sizes at sites 1–3 were 1–2 mm (fine gravel), 64–128 mm (larger stones) and 128–256 mm, respectively. The dredges usually took a similar range of stone sizes at each site but the design of the Fast dredge excluded larger stones (>16 mm). The Irish dredge sometimes failed to operate correctly. Variations in the volume of substrata taken with each dredge were large, both between sampling units in the same sample and between samples. The latter differences were partially due to the increase in the modal size of the stones, especially between sites 1 and 2, the different sampling areas of the dredges and the depth of penetration into the substratum. Penetration depth was probably greatest for the two Naturalist's dredges, smaller for the Fast dredge and smallest for the Irish dredge. In field trials, the relative abundances of major taxa were similar for most dredges at each site; major exceptions were the Fast dredge at site 2 and the Irish dredge at site 3. There was a high variability between sampling units in the same sample and therefore a lack of precision in the estimates of the mean number of invertebrates per sample. Therefore, the dredges cannot be used as quantitative samplers for the estimation of population density. Their adequacy as qualitative samplers for the estimation of total number of taxa per sample varied considerably and maximum estimates of their efficiencies for a small sample (n= 5) were <40% for the Irish and Fast dredges, >57% for the medium-sized Naturalist's dredge and >76% for the large Naturalist's dredge. There was a clear relationship between the number of taxa and the number of invertebrates taken at each site and this relationship was well described by a power law with an exponent within the range 0.18–0.53. The number of sampling units in the sample had no significant effect on the power-law equations for each site. The power-law equation was very similar for most of the dredges at each site, the only major exception being the Fast dredge at site 1. The implications of this relationship are discussed.     

A Response Surface Analysis of the Effects of Cyclohexanecarboxylic Acid and 2,4-Dichlorophenoxy Acetic Acid on Nitrogen Metabolism in Phaseolus vulgaris L.

Primary leaves of 2-week-old bush bean plants (Phaseolus vulgariscv ‘Top Crop’) were treated with one of 36 combinationsof cyclohexanecarboxylic acid (CHCA) and 2,4-dichlorophenoxyacetic acid (2,4-D), each at six equally spaced concentrationsFive, 7, 9 and 11 days after treatment, one plant from eachcombination was harvested, and primary leaves were monitoredfor nitrate reductase activity (NRA), nitrate nitrogen (N) concentration,organic N concentration, and d wt NRA was assayed by an in vivoprocedure Data from the resulting 6 x 6 x 4 factorial configuration foreach of the four responses were analysed using the method oforthogonal polynomials, which is described in detail This method,based on equally spaced levels, produced independent polynomialexpressions in CHCA concentration, 2,4-D concentration, and/ortime-to-harvest after treatment, which were then fitted to thedata on each response by simple linear regression analyses.A graphical procedure was used to compare predicted responsesfrom the best fit equations with the actual data. Examination of computer-generated plots of the three-dimensionalresponse surfaces revealed that NRA, organic N concentration,and d wt decreased with increasing 2,4-D concentration, whereasnitrate N content increased Increasing CHCA concentration generallyhad the opposite effect on NRA and nitrate N content, althoughinteraction between the two chemicals was evident in the latterresponse Organic N content remained unchanged as CHCA concentrationincreased, while d wt first increased then decreased Possibleexplanations for these results are discussed, as are the advantagesof using factorial designs with equally-spaced levels in plantgrowth studies. Phaseolus vulgaris L, bush bean, nitrogen metabolism, plant growth regulators, cyclohexanecarboxylic acid, 2,4-dichlorophenoxy acetic acid, regression analysis, orthogonal polynomials, response surfaces analysis     

The downstream drifting of larvae of Dixa (Diptera: Dixidae) in two stony streams

SUMMARY. Larvae of Dixa , especially D. puberula Loew., were a significant component of the invertebrate drift in the Walla Brook in southwest England, the Wilfin Beck and the River Duddon in the English Lake District, and the River Estibère in the French Pyrenees. The drifting of the larvae increased markedly at night and showed a definite diel periodicity with maximum numbers usually in the early hours of the night. Seasonal peaks in the density of larvae in the drift frequently occurred in months when adults and especially pupae were present. Most drifting larvae were in the fourth and final instar, and their drift rate usually increased when they were searching for suitable pupation sites.     

The migrations of the Red-billed Quelea Quelea quelea and their relation to crop damage

Recent studies on the migrations of the Red-billed Quelea Quelea quelea have shown that while the species is capable of long-distance movements of hundreds of kilometres, the actual migrations probably more often consist of shorter distances with a flexible timing. This flexibility allows adjustments to be made to the rainfall distribution in a particular year. New information comes from studies on the breeding distribution, on the plumage and moult of local populations, and from attempts to apply new techniques such as mass-marking with fluorescent particles. Breeding has been shown to be both more widespread and more frequent than previously recognized, while local populations can prolong breeding in one place if rainfall continues. Local populations have been identified that are apparently distinct, with limited intermixing with other populations, and some data suggest that intermixing may be reduced by flock or group cohesion. The flexibility of the migrations means that predictions of major influxes of quelea into agricultural areas have proved difficult to make, especially in regions where the rainfall patterns are complex and variable, such as East Africa.