scholarly journals Geographical patterns in the body-size structure of European lake fish assemblages along abiotic and biotic gradients

2014 ◽  
Vol 41 (12) ◽  
pp. 2221-2233 ◽  
Author(s):  
Matthias Emmrich ◽  
Stéphanie Pédron ◽  
Sandra Brucet ◽  
Ian J. Winfield ◽  
Erik Jeppesen ◽  
...  
Keyword(s):  
Body Size ◽  
Fish Assemblages ◽  
Size Structure ◽  
The Body ◽  
Geographical Patterns ◽  
Lake Fish

scholarly journals Catch-per-unit-effort and size spectra of lake fish assemblages reflect underlying patterns in ecological conditions and anthropogenic activities across regional and local scales

2016 ◽  
Vol 73 (4) ◽  
pp. 535-546 ◽  
Author(s):  
Cindy Chu ◽  
Nigel P. Lester ◽  
Henrique C. Giacomini ◽  
Brian J. Shuter ◽  
Donald A. Jackson
Keyword(s):  
Body Size ◽  
Fish Assemblages ◽  
Anthropogenic Activities ◽  
Ecological Indicators ◽  
Size Spectrum ◽  
Catch Per Unit Effort ◽  
Ecological Processes ◽  
Boosted Regression Tree ◽  
Unit Effort ◽  
Lake Fish

Across broad geographic scales, ecological indicators for fish assemblages should represent causal ecological processes, be sensitive enough to show patterns across the landscape, and reflect underlying biotic or abiotic conditions that influence those patterns. We assessed the responses of commonly applied ecological indicators for lake fish assemblages (mean body size, catch-per-unit-effort (CPUE), and normalized length size spectrum (NLSS) slope) to regional (climate, water chemistry, and watershed stress due to human activities) and local (lake morphometry, water quality, and angling pressure) ecological and anthropogenic variables. The indicators were estimated using fish assemblage catch data acquired via a standardized gillnetting protocol implemented within 693 lakes in Ontario, Canada. To our knowledge, our study is the first size-based or catch-based indicator evaluation to include detailed observations of angling pressure on hundreds of inland lakes. Boosted regression tree models showed that CPUE of large-bodied organisms and NLSS slope best described underlying patterns in the regional and local variables. Models developed with a mix of regional and local variables performed better than models developed with regional or local variables alone. The relative influences of the variables and responses varied among indicators, but in general, ecological variables had greater influence on the indicators than anthropogenic variables. These results emphasize the complex and multiscaled nature of factors and ecological processes affecting body size, habitat-community production, and trophic dynamics in lake fish assemblages.

scholarly journals Evidence for benthic body size miniaturization in the deep sea

2006 ◽  
Vol 86 (6) ◽  
pp. 1339-1345 ◽  
Author(s):  
Janne I. Kaariainen ◽  
Brian J. Bett
Keyword(s):  
Body Size ◽  
Deep Sea ◽  
Size Structure ◽  
Size Class ◽  
The Body ◽  
Significant Shift ◽  
Individual Biomass ◽  
Wet Weight ◽  
Accumulation Curves ◽  
Average Individual

The benthic body size miniaturization hypothesis states that deep-sea communities are dominated by organisms of smaller body size, although some field studies have produced contradictory results. Using appropriate sample sets, this study tests this hypothesis by contrasting the benthic communities of the Fladen Ground (North Sea, 150 m) and the Faroe–Shetland Channel (1600 m). Samples were collected for large (500 μm) and small macrofauna (250–355 μm), meiofauna (45 μm) as well as an intermediate sized ‘mesofauna’ (180 μm) to ensure comprehensive coverage of the full meio- and macro-faunal body size-range. The body size structure of the benthos was compared using two methods. The more widely used average individual biomass method involves dividing the total sample biomass by sample abundance. Additionally, body size accumulation curves were constructed by assigning all specimens into a logarithmic size-class and then plotting the cumulative percentage of individuals present in each size-class. The results seem to support the hypothesis that the deep-sea environment is a small organism habitat. Although these findings only represent two locations, the overall body size accumulation curves clearly display a statistically significant shift towards smaller body sizes at the deeper site. The magnitude of the effect is appreciable with median metazoan body size reducing from 14.3 μg wet weight in the Fladen Ground to 3.8 μg wet weight in the Faroe–Shetland Channel. The average individual biomass measurements are shown to be of limited value and can lead to potentially misleading conclusions if the underlying size structure is not analysed in detail.

scholarly journals Body size–trophic position relationships among fishes of the lower Mekong basin

2017 ◽  
Vol 4 (1) ◽  
pp. 160645 ◽  
Author(s):  
Chouly Ou ◽  
Carmen G. Montaña ◽  
Kirk O. Winemiller
Keyword(s):  
Body Size ◽  
Trophic Interactions ◽  
Fish Assemblages ◽  
Trophic Position ◽  
Isotope Analysis ◽  
The Body ◽  
Tropical Fish ◽  
Feeding Guilds ◽  
Mekong Basin ◽  
Lower Mekong Basin

Body size is frequently claimed to be a major determinant of animal trophic interactions, yet few studies have explored relationships between body size and trophic interactions in rivers, especially within the tropics. We examined relationships between body size and trophic position (TP) within fish assemblages in four lowland rivers of the Lower Mekong Basin in Cambodia. Stable isotope analysis (based on δ 15 N) was used to estimate TP of common fish species in each river, and species were classified according to occupation of benthic versus pelagic habitats and major feeding guilds. Regression analysis yielded strong correlations between body size and TP among fishes from the Sesan and Sreprok rivers, but not those from the Mekong and Sekong rivers. The Mekong fish assemblage had higher average TP compared with those of other rivers. The relationship between body size and TP was positive and significantly correlated for piscivores and omnivores, but not for detritivores and insectivores. The body size–TP relationship did not differ between pelagic and benthic fishes. Body size significantly predicted TP within the orders Siluriformes and Perciformes, but not for Cypriniformes, the most species-rich and ecologically diverse order in the Lower Mekong River. We conclude that for species-rich, tropical fish assemblages with many detritivores and invertivores, body size would not be an appropriate surrogate for TP in food web models and other ecological applications.

The body-size structure of macrobenthos changes predictably along gradients of hydrodynamic stress and organic enrichment

2015 ◽  
Vol 162 (3) ◽  
pp. 675-685 ◽  
Author(s):  
Serena Donadi ◽  
Britas Klemens Eriksson ◽  
Karsten Alexander Lettmann ◽  
Dorothee Hodapp ◽  
Jörg-Olaf Wolff ◽  
...  
Keyword(s):  
Body Size ◽  
Size Structure ◽  
The Body ◽  
Organic Enrichment ◽  
Hydrodynamic Stress

scholarly journals Macroscale patterns of oceanic zooplankton composition and size structure

2021 ◽  
Vol 11 (1) ◽  
Author(s):  
Manoela C. Brandão ◽  
Fabio Benedetti ◽  
Séverine Martini ◽  
Yawouvi Dodji Soviadan ◽  
Jean-Olivier Irisson ◽  
...  
Keyword(s):  
Body Size ◽  
Community Composition ◽  
Climate Models ◽  
Size Structure ◽  
Fish Larvae ◽  
The Body ◽  
Community Level ◽  
Feeding Strategies ◽  
Size Spectrum ◽  
Zooplankton Abundance

AbstractOcean plankton comprise organisms from viruses to fish larvae that are fundamental to ecosystem functioning and the provision of marine services such as fisheries and CO2 sequestration. The latter services are partly governed by variations in plankton community composition and the expression of traits such as body size at community-level. While community assembly has been thoroughly studied for the smaller end of the plankton size spectrum, the larger end comprises ectotherms that are often studied at the species, or group-level, rather than as communities. The body size of marine ectotherms decreases with temperature, but controls on community-level traits remain elusive, hindering the predictability of marine services provision. Here, we leverage Tara Oceans datasets to determine how zooplankton community composition and size structure varies with latitude, temperature and productivity-related covariates in the global surface ocean. Zooplankton abundance and median size decreased towards warmer and less productive environments, as a result of changes in copepod composition. However, some clades displayed the opposite relationships, which may be ascribed to alternative feeding strategies. Given that climate models predict increasingly warmed and stratified oceans, our findings suggest that zooplankton communities will shift towards smaller organisms which might weaken their contribution to the biological carbon pump.

scholarly journals The life cycle of a desert spider inferred from observed size frequency distribution

2012 ◽  
Vol 28 (2) ◽  
Author(s):  
Irma Gisela Nieto-Castañeda ◽  
Saías Hazarmabeth Salgadougarte ◽  
María Luisa Jiménez-Jiménez
Keyword(s):  
Life Cycle ◽  
Body Size ◽  
Size Structure ◽  
Length Distribution ◽  
The Body ◽  
Statistical Tool ◽  
Size Frequency Distribution ◽  
Mating Period ◽  
Frequency Distributions ◽  
Size Groups

We studied the life cycle of the spider Syspira tigrina (Araneae: Miturgidae) by indirect methods. This species is endemic to the North American deserts and locally abundant; nevertheless, information on its biology is scarce. We did monthly collections for over a year at La Paz, Baja California Sur, Mexico. We found that adult spiders were more abundant between August and November 2005 and had low abundance or were absent the remainder of the year while juveniles were present all year. To estimate changing body size structure of the population we analyzed juvenile tibia I length distribution (TIL) (as indicator of the body size) of each monthly sample by means of Kernel Density Estimators (KDEs). We found 35 TIL juveniles size groups (Gaussian components). The smallest juveniles were more abundant between October 2005 and January 2006 and the biggest were more abundant twice during the hottest months. We hypothesize that mating period is between August and October 2005 and the main recruitment period from November 2005 and January 2006. However we found evidenceof continuous recruitment through the year, suggesting that although there is a peak of reproduction in November, the females oviposit almost all year. Also there is evidence of juveniles’ growth pattern from January to July 2006. The use of KDEs with histograms is a very good statistical tool to delimit size groups with mixed frequency distributions that otherwise might be difficult. This tool should be useful to test any hypothesis related with the body size structure of a population or community.

scholarly journals Effects of human footprint and biophysical factors on the body‐size structure of fished marine species

2021 ◽  
Author(s):  
Nestor E. Bosch ◽  
Jacquomo Monk ◽  
Jordan Goetze ◽  
Shaun Wilson ◽  
Russell C. Babcock ◽  
...  
Keyword(s):  
Body Size ◽  
Size Structure ◽  
Marine Species ◽  
The Body ◽  
Human Footprint ◽  
Biophysical Factors

Regional analysis of body size and population density in stream fish assemblages: testing predictions of the energetic equivalence rule

2002 ◽  
Vol 59 (8) ◽  
pp. 1350-1360 ◽  
Author(s):  
Jason H Knouft
Keyword(s):  
Body Size ◽  
Population Density ◽  
Density Distribution ◽  
Fish Assemblages ◽  
The Body ◽  
Bergmann’S Rule ◽  
Stream Fish ◽  
Bergmann's Rule ◽  
Size Population ◽  
Stream Fish Assemblages

The energetic equivalence rule predicts that body mass (W) and population density (β) within an assemblage are negatively correlated and will exhibit a W–0.75 = β relationship. Bergmann's rule predicts that body size among species will increase with increasing latitude. If species body size increases with latitude, the shape of the body size – population density distribution among assemblages may also vary. This change in the body size – population density distribution, when viewed in the context of the energetic equivalence rule, may indicate an alteration in the use of available energy by individuals of different sizes within an assemblage. Twenty-eight streams were sampled across four geographically distinct regions to determine if stream fish assemblages conform to the prediction of the energetic equivalence rule. Body size in stream fish assemblages did not support the pattern predicted by Bergmann's rule, but rather was negatively correlated with latitude. Stream fish assemblages generally did not conform to the relationship predicted by the energetic equivalence rule. Moreover, these results, coupled with the predictions of the energetic equivalence rule, suggest that larger individuals tended to control a disproportionately greater amount of energy than smaller individuals in stream fish assemblages, which may be partially due to predation pressure on smaller individuals.

scholarly journals Climate change in size-structured ecosystems

2012 ◽  
Vol 367 (1605) ◽  
pp. 2903-2912 ◽  
Author(s):  
Ulrich Brose ◽  
Jennifer A. Dunne ◽  
Jose M. Montoya ◽  
Owen L. Petchey ◽  
Florian D. Schneider ◽  
...  
Keyword(s):  
Climate Change ◽  
Body Size ◽  
Size Structure ◽  
The Body ◽  
Size Distributions ◽  
Ecological Communities ◽  
Average Temperature ◽  
Mechanistic Approach ◽  
Effects Of Temperature ◽  
Future Consequences

One important aspect of climate change is the increase in average temperature, which will not only have direct physiological effects on all species but also indirectly modifies abundances, interaction strengths, food-web topologies, community stability and functioning. In this theme issue, we highlight a novel pathway through which warming indirectly affects ecological communities: by changing their size structure (i.e. the body-size distributions). Warming can shift these distributions towards dominance of small- over large-bodied species. The conceptual, theoretical and empirical research described in this issue, in sum, suggests that effects of temperature may be dominated by changes in size structure, with relatively weak direct effects. For example, temperature effects via size structure have implications for top-down and bottom-up control in ecosystems and may ultimately yield novel communities. Moreover, scaling up effects of temperature and body size from physiology to the levels of populations, communities and ecosystems may provide a crucially important mechanistic approach for forecasting future consequences of global warming.

scholarly journals Different increase rate in body mass of two marten species due to climate warming potentially reinforces interspecific competition

2021 ◽  
Vol 11 (1) ◽  
Author(s):  
Anna Wereszczuk ◽  
Tim R. Hofmeester ◽  
Alexander Csanády ◽  
Tomislav Dumić ◽  
Morten Elmeros ◽  
...  
Keyword(s):  
Body Size ◽  
Body Mass ◽  
Geographic Range ◽  
The Body ◽  
Stone Marten ◽  
Pine Marten ◽  
Adaptation To Climate Change ◽  
Geographical Patterns ◽  
Pine Martens ◽  
Over Time

AbstractMany species show spatial variation in body size, often associated with climatic patterns. Studying species with contrasting geographical patterns related to climate might help elucidate the role of different drivers. We analysed changes in the body mass of two sympatric medium-sized carnivores—pine marten (Martes martes) and stone marten (Martes foina)—across Europe over 59 years. The body mass of pine marten increased with decreasing latitude, whereas stone marten body mass varied in a more complex pattern across its geographic range. Over time, the average body mass of pine martens increased by 255 g (24%), while stone marten by 86 g (6%). The greatest increase of body mass along both martens’ geographic range was observed in central and southern Europe, where both species occur in sympatry. The body mass increase slowed down over time, especially in allopatric regions. The average pine/stone marten body mass ratio increased from 0.87 in 1960 to 0.99 in 2019, potentially strengthening the competition between them. Thus, a differential response in body size to several drivers over time might have led to an adaptive advantage for pine martens. This highlights the importance of considering different responses among interacting species when studying animal adaptation to climate change.

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