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31.
Larvae of the Antarctic brachiopod Liothyrella uva (Broderip, 1833) were released by brooding females between 10 and 15 January 1992. They were collected and cultured for the ensuing 45 d. At release they were at the gastrula stage, and were recognisable as the usual brachiopod three-lobed larva from around 18 d after release. At 22 d post-release, larvae began to congregate under shell fragments placed in culture vessels as potential settlement substrata. However, the larvae showed no signs of settlement which, combined with the absence of many of the attributes of mature larvae seen in previous studies, was taken as evidence that these larvae had not reached fully competent stages. Previous work had shown that L. uva spawns in October, indicating that the developmental period lasts for a minimum of between 115 and 160 d. The release and subsequent development of larvae also shows that what was previously thought to be a brooding species combines a long brooding period with a free-swimming phase. If this is true of other brachiopod species, then there may need to be a recategorization of some species from brooding to combined brooding and free-swimming developmental types. Even though the development period in L. uva was likely to have been underestimated because a fully competent stage was not reached, a comparison with development rates for temperate species indicated a slowing of between 8 and 70 times. This dramatic slowing of development rate in brachiopods now joins similar data previously reported for echinoderms and nemerteans, suggesting that this is a very widespred, perhaps universal, attribute of Antarctic marine invertebrates. 相似文献
32.
Development and evaluation of a Macroinvertebrate Biotic Integrity Index (MBII) for regionally assessing Mid-Atlantic Highlands Streams 总被引:5,自引:0,他引:5
Klemm DJ Blocksom KA Fulk FA Herlihy AT Hughes RM Kaufmann PR Peck DV Stoddard JL Thoeny WT Griffith MB Davis WS 《Environmental management》2003,31(5):0656-0669
The Macroinvertebrate Biotic Integrity Index (MBII) was developed from data collected at 574 wadeable stream reaches in the
Mid-Atlantic Highlands region (MAHR) by the U.S. Environmental Protection Agency's (USEPA) Environmental Monitoring and Assessment
Program (EMAP). Over 100 candidate metrics were evaluated for range, precision, responsiveness to various disturbances, relationship
to catchment area, and redundancy. Seven metrics were selected, representing taxa richness (Ephemeroptera richness, Plecoptera
richness, Trichoptera richness), assemblage composition (percent non-insect individuals, percent 5 dominant taxa), pollution
tolerance [Macroinvertebrate Tolerance Index (MTI)], and one functional feeding group (collector-filterer richness). We scored
metrics and summed them, then ranked the resulting index through use of independently evaluated reference stream reaches.
Although sites were classified into lowland and upland ecoregional groups, we did not need to develop separate scoring criteria
for each ecoregional group. We were able to use the same metrics for pool and riffle composite samples, but we had to score
them differently. Using the EMAP probability design, we inferred the results, with known confidence bounds, to the 167,797
kilometers of wadeable streams in the Mid-Atlantic Highlands. We classified 17% of the target stream length in the MAHR as
good, 57% as fair, and 26% as poor. Pool-dominated reaches were relatively rare in the MAHR, and the usefulness of the MBII
was more difficult to assess in these reaches. The process used for developing the MBII is widely applicable and resulted
in an index effective in evaluating region-wide conditions and distinguishing good and impaired reaches among both upland
and lowland streams dominated by riffle habitat. 相似文献
33.
An allozyme survey, using starch-gel electrophoresis, was carried out on eight populations of the Antarctic nemertean worm
Parborlasia corrugatus (McIntosh, 1876) collected from locations around the South Orkney Islands, Antarctica. These populations were separated by
distances in the order of tens of kilometres. Genetic variation was estimated over 22 enzyme loci for all populations examined,
giving an observed heterozygosity of 0.142. This was much lower than the expected heterozygosity (H
e
= 0.201), and it was found that there was a significant deficiency of het‐erozygotes across four enzyme loci ( p ≤ 0.01). A more detailed examination of this deficiency of heterozygotes was undertaken for the six populations and six variable
enzyme loci for which the most complete data sets existed. A significant deficiency of heterozygotes was found at the enzyme
locus Odh-1 for four of the six populations examined ( p ≤ 0.01). Mean F
is
(0.240) indicated a significant ( p ≤ 0.01) within-population component of the heterozygote deficiency estimated for the six populations sampled, and this was
mainly due to the␣Ap-1, Odh-1 and Pgm-1 loci. The mean F
st
value (0.036) was also significant ( p ≤ 0.01), indicating a degree of genetic differentiation between populations. The observed levels of genetic differentiation
between populations of P. corrugatus and the significant heterozygote deficiencies were unexpected, because this species has been reported to have a long-lived
planktotrophic larva. It is hypothesised that recruitment of P. corrugatus in the South Orkney Islands originates from genetically distinct populations located in the Weddell Sea and to the west of
the Antarctic Peninsula. Shifts in the relative position of the Weddell Sea Front, Weddell–Scotia Confluence and Scotia Front,
relative to the South Orkney Islands, provide a mechanism for variation in the origin of recruits over time.
Received: 24 July 1997 / Accepted: 31 October 1997 相似文献
34.
35.
36.
Life-history characteristics exert a profound influence upon the population structure of many marine organisms. However, relatively
few genetic studies have compared direct with indirect-developing species in the same ecosystem or geographical region, and
none to our knowledge within an Antarctic setting. To address this issue, we have collected novel amplified fragment length
polymorphism (AFLP) data from the direct-developing top shell Margarella antarctica to form a comparison with previously published data for the broadcast-spawning Antarctic limpet Nacella concinna. We scored 270 loci in 240 M. antarctica individuals sampled from five populations spanning the full length of the Antarctic Peninsula. Profound differences were
identified in the strength and pattern of population structure between the two species, consistent with gene flow being highly
restricted in M. antarctica relative to N. concinna. 相似文献
37.
Micro-evolutionary processes that underpin genetic and morphological variation in highly mobile pelagic vertebrates are virtually
unknown. Previous findings preferentially invoke vicariant isolation due to large-scale physical barriers such as continental
landmasses, followed by genetic drift. However increasingly, evidence for divergence by non-random processes (e.g. selection,
plasticity) is being presented. Wedge-tailed shearwaters are wide-ranging seabirds with breeding colonies located such that
they experience a variety of environmental pressures and conditions. Previous work on this species has provided evidence of
inter-colony divergence of adult morphology and foraging modes, as well as chick developmental patterns, suggesting that reinforcement
among colonies is possible. In order to evaluate the micro-evolutionary processes driving this observed variation, our study
compared patterns of gene flow with morphological and environmental variation among four colonies of wedge-tailed shearwater
breeding within the Indo-Pacific Ocean basin. Estimates of gene flow differed according to the genetic marker used; most likely,
this is a function of different mutation rates. Nuclear introns suggest that gene flow among wedge-tailed shearwater breeding
colonies within the Indo-Pacific Ocean basin is substantial, however microsatellite markers imply that gene flow is reduced.
In general, levels of genetic divergence were relatively low and did not correlate with geographic distance, morphological
distance or environmental differences (sea-surface temperature and chlorophyll a concentration) among colonies. We suggest that genetic drift alone is unlikely to be the major source of morphological variation
seen in this species. Instead, we propose that non-random processes (selection, plasticity) underpin morphological diversity
seen in this and possibly other seabird species. 相似文献
38.
Feeding, metabolism and growth in the Antarctic limpet, Nacella concinna (Strebel 1908) 总被引:2,自引:0,他引:2
Post-prandial increases in metabolism, the specific dynamic action of feeding (SDA), were evaluated in the Antarctic limpet
Nacella concinna. O2 consumption rose to a peak value 2.3 times higher than pre-feeding standard metabolic rates. This peak rise is low for marine
ectotherms, but is typical of polar species. There were three peaks in the SDA, the first lasted only for the 1st day, was
caused by handling, and was minor. The second was the major peak. It lasted from post-prandial days 4–9 inclusive, and accounted
for around 70% of the SDA response. The third peak lasted from day 11 to day 15 and accounted for 30% of the total SDA. A
15-day SDA is much longer than values for temperate species, but is again typical for polar marine ectotherms. NH3 excretion declined post-prandially from around 0.4 μmol animal−1 h−1 to values between 0.025 and 0.223 μmol animal−1 h−1 throughout the SDA. The total O2 consumed in the SDA was 90.2 μmol O2, which converts to 44.7 J of energy. This was 45–50% of the energy consumed in the meal (93.5 J). Pre-feeding O:N ratios,
after 26 days without food, were around 1, indicating protein as the sole metabolic substrate prior to initiating the SDA.
After feeding, O:N ratios rose to between 2.5 and 19, indicating significant use of lipid or carbohydrate from the food. Experiments
were conducted in ambient seawater with enhanced levels of Sr (SrCl added at 800 mg kg−1), and limpets were fed microalgal films also grown in enhanced Sr media. Sr incorporated in the shells during the experiment
allowed the measurement of shell increments deposited during the SDA. Between five and eight microgrowth bands were present
in the Sr-enhanced increments, which was similar to the number of days in the second SDA peak. The mean shell increment laid
down was 17.6 μm. Estimating tissue deposition from measured growth increments and published ash-free dry mass (AFDM) to length
relationships produced a value of 0.81 mg AFDM, which converted to 26.4 J of energy, or 25–30% of the energy ingested in the
meal. Estimates of growth increments associated with a single SDA have not previously been possible. Overall energy used in
the SDA and tissue deposition accounted for 75–80% of the energy ingested; the remainder was probably accounted for by unmeasured
costs such as mucus production.
Received: 6 June 2000 / Accepted: 20 September 2000 相似文献
39.
A. S. Hellkamp S. R. Shafer C. L. Campbell J. M. Bay D. A. Fiscus G. R. Hess B. F. McQuaid M. J. Munster G. L. Olson S. L. Peck K. N. Easterling K. Sidik M. B. Tooley 《Environmental monitoring and assessment》1998,51(1-2):317-324
Indicators of the condition and sustainability of agricultural lands in five Mid-Atlantic states were measured in 1994. Indicators were selected to reflect crop productivity and land stewardship on annually harvested herbaceous crop (AHHC) land, which covers almost 10% of the land area in this region. Overall, condition of agricultural lands in the region is good. Crops generally yielded more than those grown in the 1980s, with a mean observed/expected yield index greater than 1. The mean soil quality index was slightly better than a "moderate" rating for crop growth. Almost 2/3 of the AHHC land is covered by crop rotation plans, with the remaining land mostly in hay fields. Insecticides were applied to less than 20% of AHHC land, and less than 20% of the land where pesticides were applied has high to moderately high potential for pesticides leaching into groundwater. However, integrated pest management (IPM) is practiced on less than 20% of AHHC land. Hay showed more efficient use of nitrogen than seed crops, and non-tilled sites, which are mostly hay, had more microbial biomass (suggesting more nutrient cycling) than tilled sites. This information could provide a baseline for a long-term monitoring program for agroecosystems in the region. 相似文献
40.
Glenn J. Lurman Till Blaser Miles Lamare Lloyd S. Peck Simon Morley 《Marine Biology》2010,157(4):907-913
Habitat temperature and mitochondrial volume density (Vv(mt,mf)) are negatively correlated in fishes, while seasonal acclimatization may increase Vv(mt,mf) or the surface density of the mitochondrial cristae (Sv(im,mt)). The effect of temperature on invertebrate mitochondria is essentially unknown. A comparison of two articulate brachiopod
species, Liothyrella uva collected from Rothera Station, Antarctica in summer 2007, and Liothyrella neozelanica collected from Fiordland, New Zealand in winter 2007 and summer 2008, revealed a higher Vv(mt,mf) in the Antarctic brachiopod. The Sv(im,mt) was, however, significantly lower, indicating the Antarctic brachiopods have more, less reactive mitochondria. L. uva, from the colder environment, had larger adductor muscles in both absolute and relative terms than the temperate L. neozelanica. Furthermore, a seasonal comparison (winter vs. summer) in L. neozelanica showed that the absolute and relative size of the adductor increased in winter, Vv(mt,mf) was unchanged, and Sv(im,mt) was significantly increased. Thus, seasonal acclimatization to the cold resulted in the same number of more reactive mitochondria.
L. neozelanica was clearly able to adapt to seasonal changes using a different mechanism, i.e. primarily through regulation of cristae surface
area as opposed to mitochondrial volume density. Furthermore, given the evolutionary age of these living fossils (i.e. approximately
550 million years), this suggests that mitochondrial plasticity has roots extending far back into evolutionary history. 相似文献