TY  - JOUR
A1  - Beck, Jan
A1  - Ballesteros-Mejia, Liliana
A1  - Buchmann, Carsten M.
A1  - Dengler, Jürgen
A1  - Fritz, Susanne A.
A1  - Gruber, Bernd
A1  - Hof, Christian
A1  - Jansen, Florian
A1  - Knapp, Sonja
A1  - Kreft, Holger
A1  - Schneider, Anne-Kathrin
A1  - Winter, Marten
A1  - Dormann, Carsten F.
T1  - What's on the horizon for macroecology?
JF  - Ecography : pattern and diversity in ecology ; research papers forum
N2  - Over the last two decades, macroecology the analysis of large-scale, multi-species ecological patterns and processes has established itself as a major line of biological research. Analyses of statistical links between environmental variables and biotic responses have long and successfully been employed as a main approach, but new developments are due to be utilized. Scanning the horizon of macroecology, we identified four challenges that will probably play a major role in the future. We support our claims by examples and bibliographic analyses. 1) Integrating the past into macroecological analyses, e.g. by using paleontological or phylogenetic information or by applying methods from historical biogeography, will sharpen our understanding of the underlying reasons for contemporary patterns. 2) Explicit consideration of the local processes that lead to the observed larger-scale patterns is necessary to understand the fine-grain variability found in nature, and will enable better prediction of future patterns (e.g. under environmental change conditions). 3) Macroecology is dependent on large-scale, high quality data from a broad spectrum of taxa and regions. More available data sources need to be tapped and new, small-grain large-extent data need to be collected. 4) Although macroecology already lead to mainstreaming cutting-edge statistical analysis techniques, we find that more sophisticated methods are needed to account for the biases inherent to sampling at large scale. Bayesian methods may be particularly suitable to address these challenges. To continue the vigorous development of the macroecological research agenda, it is time to address these challenges and to avoid becoming too complacent with current achievements.
Y1  - 2012
U6  - https://doi.org/10.1111/j.1600-0587.2012.07364.x
SN  - 0906-7590
SN  - 1600-0587
VL  - 35
IS  - 8
SP  - 673
EP  - 683
PB  - Wiley-Blackwell
CY  - Hoboken
ER  - 
TY  - JOUR
A1  - Kissling, W. D.
A1  - Dormann, Carsten F.
A1  - Groeneveld, Juergen
A1  - Hickler, Thomas
A1  - Kühn, Ingolf
A1  - McInerny, Greg J.
A1  - Montoya, Jose M.
A1  - Römermann, Christine
A1  - Schiffers, Katja
A1  - Schurr, Frank Martin
A1  - Singer, Alexander
A1  - Svenning, Jens-Christian
A1  - Zimmermann, Niklaus E.
A1  - O'Hara, Robert B.
T1  - Towards novel approaches to modelling biotic interactions in multispecies assemblages at large spatial extents
JF  - Journal of biogeography
N2  - Aim Biotic interactions within guilds or across trophic levels have widely been ignored in species distribution models (SDMs). This synthesis outlines the development of species interaction distribution models (SIDMs), which aim to incorporate multispecies interactions at large spatial extents using interaction matrices. Location Local to global. Methods We review recent approaches for extending classical SDMs to incorporate biotic interactions, and identify some methodological and conceptual limitations. To illustrate possible directions for conceptual advancement we explore three principal ways of modelling multispecies interactions using interaction matrices: simple qualitative linkages between species, quantitative interaction coefficients reflecting interaction strengths, and interactions mediated by interaction currencies. We explain methodological advancements for static interaction data and multispecies time series, and outline methods to reduce complexity when modelling multispecies interactions. Results Classical SDMs ignore biotic interactions and recent SDM extensions only include the unidirectional influence of one or a few species. However, novel methods using error matrices in multivariate regression models allow interactions between multiple species to be modelled explicitly with spatial co-occurrence data. If time series are available, multivariate versions of population dynamic models can be applied that account for the effects and relative importance of species interactions and environmental drivers. These methods need to be extended by incorporating the non-stationarity in interaction coefficients across space and time, and are challenged by the limited empirical knowledge on spatio-temporal variation in the existence and strength of species interactions. Model complexity may be reduced by: (1) using prior ecological knowledge to set a subset of interaction coefficients to zero, (2) modelling guilds and functional groups rather than individual species, and (3) modelling interaction currencies and species effect and response traits. Main conclusions There is great potential for developing novel approaches that incorporate multispecies interactions into the projection of species distributions and community structure at large spatial extents. Progress can be made by: (1) developing statistical models with interaction matrices for multispecies co-occurrence datasets across large-scale environmental gradients, (2) testing the potential and limitations of methods for complexity reduction, and (3) sampling and monitoring comprehensive spatio-temporal data on biotic interactions in multispecies communities.
KW  - Community ecology
KW  - ecological networks
KW  - global change
KW  - guild assembly
KW  - multidimensional complexity
KW  - niche theory
KW  - prediction
KW  - species distribution model
KW  - species interactions
KW  - trait-based community modules
Y1  - 2012
U6  - https://doi.org/10.1111/j.1365-2699.2011.02663.x
SN  - 0305-0270
VL  - 39
IS  - 12
SP  - 2163
EP  - 2178
PB  - Wiley-Blackwell
CY  - Hoboken
ER  - 
TY  - JOUR
A1  - Kaplan, Aaron
A1  - Harel, Moshe
A1  - Kaplan-Levy, Ruth N.
A1  - Hadas, Ora
A1  - Sukenik, Assaf
A1  - Dittmann-Thünemann, Elke
T1  - The languages spoken in the water body (or the biological role of cyanobacterial toxins)
JF  - Frontiers in microbiology
N2  - Although intensification of toxic cyanobacterial blooms over the last decade is a matter of growing concern due to bloom impact on water quality, the biological role of most of the toxins produced is not known. In this critical review we focus primarily on the biological role of two toxins, microcystins and cylindrospermopsin, in inter- and intra-species communication and in nutrient acquisition. We examine the experimental evidence supporting some of the dogmas in the field and raise several open questions to be dealt with in future research. We do not discuss the health and environmental implications of toxin presence in the water body.
KW  - aoa
KW  - cylindrospermopsin
KW  - microcystin
KW  - cyr
KW  - mcy
Y1  - 2012
U6  - https://doi.org/10.3389/fmicb.2012.00138
SN  - 1664-302X
VL  - 3
PB  - Frontiers Research Foundation
CY  - Lausanne
ER  - 
TY  - JOUR
A1  - Baumann, Otto
A1  - Walz, Bernd
T1  - The blowfly salivary gland - A model system for analyzing the regulation of plasma membrane V-ATPase
JF  - Journal of insect physiology
N2  - Vacuolar H+-ATPases (V-ATPases) are heteromultimeric proteins that use the energy of ATP hydrolysis for the electrogenic transport of protons across membranes. They are common to all eukaryotic cells and are located in the plasma membrane or in membranes of acid organelles. In many insect epithelia, V-ATPase molecules reside in large numbers in the apical plasma membrane and create an electrochemical proton gradient that is used for the acidification or alkalinization of the extracellular space, the secretion or reabsorption of ions and fluids, the import of nutrients, and diverse other cellular activities. Here, we summarize our results on the functions and regulation of V-ATPase in the tubular salivary gland of the blowfly Calliphora vicina. In this gland, V-ATPase activity energizes the secretion of a KCl-rich saliva in response to the neurohormone serotonin (5-HT). Because of particular morphological and physiological features, the blowfly salivary glands are a superior and exemplary system for the analysis of the intracellular signaling pathways and mechanisms that modulate V-ATPase activity and solute transport in an insect epithelium.
KW  - Vacuolar-type H+-ATPase
KW  - Insect epithelia
KW  - Reversible assembly
KW  - cAMP
KW  - Phosphorylation
KW  - Calliphora vicina
Y1  - 2012
U6  - https://doi.org/10.1016/j.jinsphys.2011.11.015
SN  - 0022-1910
VL  - 58
IS  - 4
SP  - 450
EP  - 458
PB  - Elsevier
CY  - Oxford
ER  - 
TY  - JOUR
A1  - Schippers, Jos H. M.
A1  - Nguyen, Hung M.
A1  - Lu, Dandan
A1  - Schmidt, Romy
A1  - Müller-Röber, Bernd
T1  - ROS homeostasis during development: an evolutionary conserved strategy
JF  - Cellular and molecular life sciences
N2  - The balance between cellular proliferation and differentiation is a key aspect of development in multicellular organisms. Recent studies on Arabidopsis roots revealed distinct roles for different reactive oxygen species (ROS) in these processes. Modulation of the balance between ROS in proliferating cells and elongating cells is controlled at least in part at the transcriptional level. The effect of ROS on proliferation and differentiation is not specific for plants but appears to be conserved between prokaryotic and eukaryotic life forms. The ways in which ROS is received and how it affects cellular functioning is discussed from an evolutionary point of view. The different redox-sensing mechanisms that evolved ultimately result in the activation of gene regulatory networks that control cellular fate and decision-making. This review highlights the potential common origin of ROS sensing, indicating that organisms evolved similar strategies for utilizing ROS during development, and discusses ROS as an ancient universal developmental regulator.
KW  - Evolution
KW  - Reactive oxygen species
KW  - Development
Y1  - 2012
U6  - https://doi.org/10.1007/s00018-012-1092-4
SN  - 1420-682X
VL  - 69
IS  - 19
SP  - 3245
EP  - 3257
PB  - Springer
CY  - Basel
ER  - 
TY  - JOUR
A1  - Lokstein, Heiko
A1  - Betke, Alexander
A1  - Krikunova, Maria
A1  - Teuchner, Klaus
A1  - Voigt, Bernd
T1  - Elucidation of structure-function relationships in plant major light-harvesting complex (LHC II) by nonlinear spectroscopy
JF  - Photosynthesis research
N2  - Conventional linear and time-resolved spectroscopic techniques are often not appropriate to elucidate specific pigment-pigment interactions in light-harvesting pigment-protein complexes (LHCs). Nonlinear (laser-) spectroscopic techniques, including nonlinear polarization spectroscopy in the frequency domain (NLPF) as well as step-wise (resonant) and simultaneous (non-resonant) two-photon excitation spectroscopies may be advantageous in this regard. Nonlinear spectroscopies have been used to elucidate substructure(s) of very complex spectra, including analyses of strong excitonic couplings between chlorophylls and of interactions between (bacterio) chlorophylls and "optically dark'' states of carotenoids in LHCs, including the major antenna complex of higher plants, LHC II. This article shortly reviews our previous study and outlines perspectives regarding the application of selected nonlinear laser-spectroscopic techniques to disentangle structure-function relationships in LHCs and other pigment-protein complexes.
KW  - Excitonic interactions
KW  - Laser spectroscopy
KW  - Light-harvesting complex (LHC II)
Y1  - 2012
U6  - https://doi.org/10.1007/s11120-011-9700-y
SN  - 0166-8595
VL  - 111
IS  - 1-2
SP  - 227
EP  - 235
PB  - Springer
CY  - Dordrecht
ER  - 
TY  - JOUR
A1  - Mulder, Christian
A1  - Boit, Alice
A1  - Mori, Shigeta
A1  - Vonk, J. Arie
A1  - Dyer, Scott D.
A1  - Faggiano, Leslie
A1  - Geisen, Stefan
A1  - Gonzalez, Angelica L.
A1  - Kaspari, Michael
A1  - Lavorel, Sandra
A1  - Marquet, Pablo A.
A1  - Rossberg, Axel G.
A1  - Sterner, Robert W.
A1  - Voigt, Winfried
A1  - Wall, Diana H.
ED  - Jacob, U
ED  - Woodward, G
T1  - Distributional (In)Congruence of Biodiversity-Ecosystem Functioning
JF  - Advances in ecological research
JF  - Advances in Ecological Research
N2  - The majority of research on biodiversity ecosystem functioning in laboratories has concentrated on a few traits, but there is increasing evidence from the field that functional diversity controls ecosystem functioning more often than does species number. Given the importance of traits as predictors of niche complementarity and community structures, we (1) examine how the diversity sensu lato of forest trees, freshwater fishes and soil invertebrates might support ecosystem functioning and (2) discuss the relevance of productive biota for monophyletic assemblages (taxocenes).
 In terrestrial ecosystems, correlating traits to abiotic factors is complicated by the appropriate choice of body-size distributions. Angiosperm and gymnosperm trees, for example, show metabolic incongruences in their respiration rates despite their pronounced macroecological scaling. Scaling heterotrophic organisms within their monophyletic assemblages seems more difficult than scaling autotrophs: in contrast to the generally observed decline of mass-specific metabolic rates with body mass within metazoans, soil organisms such as protozoans show opposite mass-specific trends.
 At the community level, the resource demand of metazoans shapes multitrophic interactions. Hence, population densities and their food web relationships reflect functional diversity, but the influence of biodiversity on stability and ecosystem functioning remains less clear. We focused on fishes in 18 riverine food webs, where the ratio of primary versus secondary extinctions (hereafter, 'extinction partitioning') summarizes the responses of fish communities to primary species loss (deletions) and its consequences. Based on extinction partitioning, our high-diversity food webs were just as (or even more) vulnerable to extinctions as low-diversity food webs.
 Our analysis allows us to assess consequences of the relocation or removal of fish species and to help with decision-making in sustainable river management. The study highlights that the topology of food webs (and not simply taxonomic diversity) plays a greater role in stabilizing the food web and enhancing ecological services than is currently acknowledged.
Y1  - 2012
SN  - 978-0-12-396992-7
U6  - https://doi.org/10.1016/B978-0-12-396992-7.00001-0
SN  - 0065-2504
VL  - 46
SP  - 1
EP  - 88
PB  - Elsevier
CY  - San Diego
ER  - 
TY  - JOUR
A1  - Welker, Martin
A1  - Dittmann-Thünemann, Elke
A1  - von Doehren, Hans
ED  - Hopwood, DA
T1  - Cyanobacteria as a source of natural products
JF  - Methods in enzymology
JF  - Methods in Enzymology
N2  - Cyanobacteria or blue-green algae from various environments have been recognized as sources of a variety of bioactive metabolites. Strategies of strain isolation from aquatic habitats, and cultivation and harvesting for metabolite production are described. Strategies for screening of compounds are discussed, including their direct MALDI-TOF mass spectrometric detection in whole cells. Genetic approaches including genomic mining, mutagenesis including transcriptional activation, heterologous expression, and in vitro. reconstitution of pathways are presented.
Y1  - 2012
SN  - 978-0-12-404634-4
U6  - https://doi.org/10.1016/B978-0-12-404634-4.00002-4
SN  - 0076-6879
VL  - 517
IS  - 1
SP  - 23
EP  - 46
PB  - Elsevier
CY  - San Diego
ER  - 
TY  - JOUR
A1  - Powell, Anahid E.
A1  - Lenhard, Michael
T1  - Control of organ size in plants
JF  - Current biology
N2  - The size of plant organs, such as leaves and flowers, is determined by an interaction of genotype and environmental influences. Organ growth occurs through the two successive processes of cell proliferation followed by cell expansion. A number of genes influencing either or both of these processes and thus contributing to the control of final organ size have been identified in the last decade. Although the overall picture of the genetic regulation of organ size remains fragmentary, two transcription factor/microRNA-based genetic pathways are emerging in the control of cell proliferation. However, despite this progress, fundamental questions remain unanswered, such as the problem of how the size of a growing organ could be monitored to determine the appropriate time for terminating growth. While genetic analysis will undoubtedly continue to advance our knowledge about size control in plants, a deeper understanding of this and other basic questions will require including advanced live-imaging and mathematical modeling, as impressively demonstrated by some recent examples. This should ultimately allow the comparison of the mechanisms underlying size control in plants and in animals to extract common principles and lineage-specific solutions.
Y1  - 2012
U6  - https://doi.org/10.1016/j.cub.2012.02.010
SN  - 0960-9822
VL  - 22
IS  - 9
SP  - R360
EP  - R367
PB  - Cell Press
CY  - Cambridge
ER  -