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71.
72.
Nonadditive effects of consumption in an intertidal macroinvertebrate community are independent of food availability but driven by complementarity effects
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Emily M. van Egmond Peter M. van Bodegom Jurgen R. van Hal Richard S. P. van Logtestijn Matty P. Berg Rien Aerts 《Ecology and evolution》2018,8(6):3086-3097
Suboptimal environmental conditions are ubiquitous in nature and commonly drive the outcome of biological interactions in community processes. Despite the importance of biological interactions for community processes, knowledge on how species interactions are affected by a limiting resource, for example, low food availability, remains limited. Here, we tested whether variation in food supply causes nonadditive consumption patterns, using the macroinvertebrate community of intertidal sandy beaches as a model system. We quantified isotopically labeled diatom consumption by three macroinvertebrate species (Bathyporeia pilosa, Haustorius arenarius, and Scolelepis squamata) kept in mesocosms in either monoculture or a three‐species community at a range of diatom densities. Our results show that B. pilosa was the most successful competitor in terms of consumption at both high and low diatom density, while H. arenarius and especially S. squamata consumed less in a community than in their respective monocultures. Nonadditive effects on consumption in this macroinvertebrate community were present and larger than mere additive effects, and similar across diatom densities. The underlying species interactions, however, did change with diatom density. Complementarity effects related to niche‐partitioning were the main driver of the net diversity effect on consumption, with a slightly increasing contribution of selection effects related to competition with decreasing diatom density. For the first time, we showed that nonadditive effects of consumption are independent of food availability in a macroinvertebrate community. This suggests that, in communities with functionally different, and thus complementary, species, nonadditive effects can arise even when food availability is low. Hence, at a range of environmental conditions, species interactions hold important potential to alter ecosystem functioning. 相似文献
73.
T. Aerts J. Clauwaert P. Haezebrouck E. Peeters H. Van Dael 《European biophysics journal : EBJ》1997,25(5-6):445-454
We have studied the quaternary structure of α-crystallin in the presence of increasing concentrations of amphiphilic and neutral detergents using gel filtration, light-scattering,
boundary and equilibrium sedimentation. We observed a continuous reduction of the molar mass of the polymeric α-crystallin on increasing the concentration of sodium dodecyl sulphate from 0.1 mM to 5 mM, ending up with the monomeric peptides.
Dodecyltrimethylammonium bromide also disrupts the oligomeric structure of α-crystallin but the interaction appears to be cooperative: in the sharp transition region (for a 1 mg/ml protein solution)
from 3 to 8 mM of the detergent, only the native protein and a mixture of monomeric and dimeric peptide-DTAB complexes can
be observed. Concomitant studies of the circular dichroism in the far UV revealed a substantial decrease of the β-sheet and increase of the α-helix secondary structure. The latter can be related to the presence of amphiphilic polypeptide sequences in the constituent
αA and αB peptides. These studies reveal for the first time a direct relation between changes in the secondary structure of the αA and αB peptides and the formation of the oligomeric α-crystallin structure: the binding of the amphiphilic detergent reduces the β-sheet content, induces the formation of α-helix secondary structure and reduces the tendency of the peptide to form large aggregates. The different mechanisms for
reducing the oligomeric size by anionic and cationic detergents with identical apolar parts stresses the importance of charge
interactions. Our findings support some aspects of the micelle model of α-crystallin and can be related to its chaperone activity.
Accepted: 18 October 1996 相似文献
74.
Studies of cryptogam responses to climate change in the polar regions are scarce because these slow-growing organisms require long-term monitoring studies. Here, we analyse the response of a lichen and moss community to 10 years of passive environmental manipulation using open-top chambers (OTCs) in the maritime Antarctic region. Cover of the dominant lichen Usnea antarctica declined by 71 % in the OTCs. However, less dominant lichen species showed no significant responses except for an increase in Ochrolechia frigida, which typically covered dying lichen and moss vegetation. There were no detectable responses in the moss or associated micro-arthropod communities to the influence of the OTCs. Based on calculated respiration rates, we hypothesise that the decline of U. antarctica was most likely caused by increased net winter respiration rates (11 %), driven by the higher temperatures and lower light levels experienced inside the OTCs as a result of greater snow accumulation. During summer, U. antarctica appears unable to compensate for this increased carbon loss, leading to a negative carbon balance on an annual basis, and the lichen therefore appears to be vulnerable to such climate change simulations. These findings indicate that U. antarctica dominated fell-fields may change dramatically if current environmental change trends continue in the maritime Antarctic, especially if associated with increases in winter snow depth or duration. 相似文献
75.
76.
Head kinematics during aquatic feeding of the Australian long-necked turtle (Chelodina) were studied by means of high speed video recordings. Buccal expansion was assessed by calculation of elliptical cross-sectional surfaces. Further, displacements of head, carapace, and prey in the earth bound frame, of the prey relative to the center of the gape, and of the head relative to the carapace were determined. Rates of change (velocities) of all these variables were calculated. These data are combined with information on the osteology and myology of the head. The robust development of the large hyobranchial apparatus, the massive intercornuatus muscle, and the presence of the branchiosquamosus muscle were related to aquatic feeding skills. Head kinematics are variable in amplitude and relative timing, but proceed always in a rostrocaudal sequence. According to their effect on the prey, two components are distinguished in the process of expansion. The first compensates for head/body movements (compensatory suction). The second causes distinct acceleration of water and prey (inertial suction). The latter component is mainly driven by the abduction of the second branchial arch. In spite of largely different structural solutions, optimal feeding conditions as deduced for suction in feeding fishes are also employed by Chelodina. This further promotes the assumption that hydrodynamics constrain evolutive solutions for aquatic feeding. J. Morphol. 233:113–125, 1997. © 1997 Wiley-Liss, Inc. 相似文献
77.
Plant species traits are the predominant control on litter decomposition rates within biomes worldwide 总被引:9,自引:0,他引:9
Cornwell WK Cornelissen JH Amatangelo K Dorrepaal E Eviner VT Godoy O Hobbie SE Hoorens B Kurokawa H Pérez-Harguindeguy N Quested HM Santiago LS Wardle DA Wright IJ Aerts R Allison SD van Bodegom P Brovkin V Chatain A Callaghan TV Díaz S Garnier E Gurvich DE Kazakou E Klein JA Read J Reich PB Soudzilovskaia NA Vaieretti MV Westoby M 《Ecology letters》2008,11(10):1065-1071
Worldwide decomposition rates depend both on climate and the legacy of plant functional traits as litter quality. To quantify the degree to which functional differentiation among species affects their litter decomposition rates, we brought together leaf trait and litter mass loss data for 818 species from 66 decomposition experiments on six continents. We show that: (i) the magnitude of species-driven differences is much larger than previously thought and greater than climate-driven variation; (ii) the decomposability of a species' litter is consistently correlated with that species' ecological strategy within different ecosystems globally, representing a new connection between whole plant carbon strategy and biogeochemical cycling. This connection between plant strategies and decomposability is crucial for both understanding vegetation-soil feedbacks, and for improving forecasts of the global carbon cycle. 相似文献
78.
Herrel A Schaerlaeken V Ross C Meyers J Nishikawa K Abdala V Manzano A Aerts P 《Integrative and comparative biology》2008,48(2):261-271
Electromyography (EMG), or the study of muscle activation patterns,has long been used to infer central nervous system (CNS) controlof the musculoskeletal system and the evolution of that control.As the activation of the muscles at the level of the peripheryis a reflection of the interaction of descending influencesand local reflex control, EMG is an important tool in integratedinvestigations of the evolution of coordination in complex,musculoskeletal systems. Yet, the use of EMG as a tool to understandthe evolution of motor control has its limitations. We herereview the potential limitations and opportunities of the useof EMG in studying the evolution of motor control in vertebratesand provide original previously unpublished data to illustratethis. The relative timing of activation of a set of musclescan be used to evaluate CNS coordination of the components ina musculoskeletal system. Studies of relative timing revealtask-dependent variability in the recruitment of different populationsof muscle fibers (i.e., different fiber types) within a singlemuscle, and left–right asymmetries in activation thatneed to be taken into account in comparative studies. The magnitudeof muscle recruitment is strongly influenced by the instantaneousdemands imposed on the system, and is likely determined by localreflex-control systems. Consequently, using EMG to make meaningfulinferences about evolutionary changes in musculoskeletal controlrequires comparisons across similar functional tasks. Moreover,our data show that inferences about the evolution of motor controlare limited in their explanatory power without proper insightsinto the kinematics and dynamics of a system. 相似文献
79.
Dieter Blottner Najet Serradj Michele Salanova Chadi Touma Rupert Palme Mitchell Silva Jean Marie Aerts Daniel Berckmans Laurence Vico Yi Liu Alessandra Giuliani Franco Rustichelli Ranieri Cancedda Marc Jamon 《Journal of comparative physiology. B, Biochemical, systemic, and environmental physiology》2009,179(4):519-533
Environmental conditions likely affect physiology and behaviour of mice used for life sciences research on Earth or in Space.
Here, we analysed the effects of cage confinement on the weightbearing musculoskeletal system, behaviour and stress of wild-type
mice (C57BL/6JRj, 30 g b.wt., total n = 24) housed for 25 days in a prototypical ground-based and fully automated life support habitat device called “Mice in Space”
(MIS). Compared with control housing (individually ventilated cages) the MIS mice revealed no significant changes in soleus
muscle size and myofiber distribution (type I vs. II) and quality of bone (3-D microarchitecture and mineralisation of calvaria,
spine and femur) determined by confocal and micro-computed tomography. Corticosterone metabolism measured non-invasively (faeces)
monitored elevated adrenocortical activity at only start of the MIS cage confinement (day 1). Behavioural tests (i.e., grip
strength, rotarod, L/D box, elevated plus-maze, open field, aggressiveness) performed subsequently revealed only minor changes
in motor performance (MIS vs. controls). The MIS habitat will not, on its own, produce major effects that could confound interpretation
of data induced by microgravity exposure during spaceflight. Our results may be even more helpful in developing multidisciplinary
protocols with adequate scenarios addressing molecular to systems levels using mice of various genetic phenotypes in many
laboratories.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. 相似文献
80.
Rien Aerts 《Polar Biology》2009,32(2):207-214
Global warming will lead to increased nitrogen supply in tundra ecosystems. How increased N supply affected leaf production,
leaf turnover and dead leaf N input into the soil of Empetrum nigrum and Andromeda polifolia (evergreens), Eriophorum vaginatum (graminoid) and Betula nana (deciduous) in a sub-arctic tundra in northern Sweden between 2003 and 2007 was experimentally investigated. There was considerable
interspecific variation in the response of leaf production to N addition, varying from negative, no response to a positive
response. Nitrogen addition effects on leaf turnover also showed considerable variation among species, varying from no effect
to increased leaf turnover (up to 27% in Eriophorum). Nitrogen addition resulted in a four to fivefold increase in N content in the dead leaves of both evergreens and a 65%
increase in Eriophorum. Surprisingly, there was no increase in Betula. The response of dead leaf P contents to N addition was rather species specific. There was no response in Empetrum, whereas there were significant increases in Andromeda (+214%) and Eriophorum (+32%), and a decrease of 47% in Betula. As an overall result of the changes in leaf production, leaf turnover and dead leaf N and P contents, nitrogen addition
increased in all species except Betula the amount of N and, for Andromeda and Eriophorum the amount of P transferred to the soil due to leaf litter inputs. However, the way in which this was achieved differed substantially
among species due to interspecific differences in the response of the component processes (leaf production, leaf turnover,
dead leaf nutrient content). 相似文献