TY  - JOUR
A1  - Koerner, Katrin
A1  - Pfestorf, Hans
A1  - May, Felix
A1  - Jeltsch, Florian
T1  - Modelling the effect of belowground herbivory on grassland diversity
JF  - Ecological modelling : international journal on ecological modelling and engineering and systems ecolog
N2  - One challenging question in ecology is to explain species coexistence in highly diverse temperate grassland plant communities. Within this context, a clear understanding of the consequences of belowground herbivory for the composition and the diversity of plant communities continue to elude ecologists. The existing body of empirical evidence reveals partly contradictory responses ranging from negative to neutral or positive effects of belowground herbivory on grassland diversity.
 To reveal possible mechanistic grounds for these discrepancies, we extended an existing simulation model of grassland communities based on plant functional types to include root herbivory. This enabled us to test the effects of different feeding modes that represent different herbivore guilds. For each belowground feeding mode, we systematically varied the intensity and frequency of herbivory events for three different levels of soil fertility both in the presence and absence of additional aboveground grazing.
 Our modelling approach successfully reproduced various empirically reported diversity responses, merely on the basis of the different feeding modes. Different levels of plant resource availability affected the strength, but not the direction of the belowground herbivory effects. The only exception was the scenario with low resource levels, which promoted neutral (neither positive nor negative) diversity responses for some of the feeding modes. Interestingly, aboveground biomass production was largely unaffected by diversity changes induced by belowground herbivory except in the case of selective feeding modes that were related to specific functional traits.
 Our findings provide possible explanations for the broad spectrum of belowground herbivory effects on plant community diversity. Furthermore, the presented theoretical modelling approach provides a suitable conceptual framework to better understand the complex linkage between plant community and belowground herbivory dynamics.
KW  - Belowground herbivory
KW  - Individual based simulation model
KW  - Plant functional types
KW  - Species coexistence
KW  - IBC-grass model
KW  - ODD protocol
Y1  - 2014
U6  - https://doi.org/10.1016/j.ecolmodel.2013.10.025
SN  - 0304-3800
SN  - 1872-7026
VL  - 273
SP  - 79
EP  - 85
PB  - Elsevier
CY  - Amsterdam
ER  - 
TY  - JOUR
A1  - Sonnemann, Ilja
A1  - Pfestorf, Hans
A1  - Jeltsch, Florian
A1  - Wurst, Susanne
T1  - Community-Weighted Mean Plant Traits Predict Small Scale Distribution of Insect Root Herbivore Abundance
JF  - PLoS one
N2  - Small scale distribution of insect root herbivores may promote plant species diversity by creating patches of different herbivore pressure. However, determinants of small scale distribution of insect root herbivores, and impact of land use intensity on their small scale distribution are largely unknown. We sampled insect root herbivores and measured vegetation parameters and soil water content along transects in grasslands of different management intensity in three regions in Germany. We calculated community-weighted mean plant traits to test whether the functional plant community composition determines the small scale distribution of insect root herbivores. To analyze spatial patterns in plant species and trait composition and insect root herbivore abundance we computed Mantel correlograms. Insect root herbivores mainly comprised click beetle (Coleoptera, Elateridae) larvae (43%) in the investigated grasslands. Total insect root herbivore numbers were positively related to community-weighted mean traits indicating high plant growth rates and biomass (specific leaf area, reproductive-and vegetative plant height), and negatively related to plant traits indicating poor tissue quality (leaf C/N ratio). Generalist Elaterid larvae, when analyzed independently, were also positively related to high plant growth rates and furthermore to root dry mass, but were not related to tissue quality. Insect root herbivore numbers were not related to plant cover, plant species richness and soil water content. Plant species composition and to a lesser extent plant trait composition displayed spatial autocorrelation, which was not influenced by land use intensity. Insect root herbivore abundance was not spatially autocorrelated. We conclude that in semi-natural grasslands with a high share of generalist insect root herbivores, insect root herbivores affiliate with large, fast growing plants, presumably because of availability of high quantities of food. Affiliation of insect root herbivores with large, fast growing plants may counteract dominance of those species, thus promoting plant diversity.
Y1  - 2015
U6  - https://doi.org/10.1371/journal.pone.0141148
SN  - 1932-6203
VL  - 10
IS  - 10
PB  - PLoS
CY  - San Fransisco
ER  - 
TY  - GEN
A1  - Sonnemann, Ilja
A1  - Pfestorf, Hans
A1  - Jeltsch, Florian
A1  - Wurst, Susanne
T1  - Community- weighted mean plant traits predict small scale distribution of insect root herbivore abundance
T2  - Postprints der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe
N2  - Small scale distribution of insect root herbivores may promote plant species diversity by creating patches of different herbivore pressure. However, determinants of small scale distribution of insect root herbivores, and impact of land use intensity on their small scale distribution are largely unknown. We sampled insect root herbivores and measured vegetation parameters and soil water content along transects in grasslands of different management intensity in three regions in Germany. We calculated community-weighted mean plant traits to test whether the functional plant community composition determines the small scale distribution of insect root herbivores. To analyze spatial patterns in plant species and trait composition and insect root herbivore abundance we computed Mantel correlograms. Insect root herbivores mainly comprised click beetle (Coleoptera, Elateridae) larvae (43%) in the investigated grasslands. Total insect root herbivore numbers were positively related to community-weighted mean traits indicating high plant growth rates and biomass (specific leaf area, reproductive-and vegetative plant height), and negatively related to plant traits indicating poor tissue quality (leaf C/N ratio). Generalist Elaterid larvae, when analyzed independently, were also positively related to high plant growth rates and furthermore to root dry mass, but were not related to tissue quality. Insect root herbivore numbers were not related to plant cover, plant species richness and soil water content. Plant species composition and to a lesser extent plant trait composition displayed spatial autocorrelation, which was not influenced by land use intensity. Insect root herbivore abundance was not spatially autocorrelated. We conclude that in semi-natural grasslands with a high share of generalist insect root herbivores, insect root herbivores affiliate with large, fast growing plants, presumably because of availability of high quantities of food. Affiliation of insect root herbivores with large, fast growing plants may counteract dominance of those species, thus promoting plant diversity.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 494 
KW  - Diabrotica Virgifera Virgifera
KW  - land-use intensity
KW  - functional traits
KW  - wireworms coloptera
KW  - spatial-distribution
KW  - Agriotes Ustulatus
KW  - population-dynamics
KW  - grassland diversity
KW  - european flora
KW  - arable land
Y1  - 2019
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-408161
SN  - 1866-8372
IS  - 494
ER  - 
TY  - JOUR
A1  - Pfestorf, Hans
A1  - Körner, Katrin
A1  - Sonnemann, Ilja
A1  - Wurst, Susanne
A1  - Jeltsch, Florian
T1  - Coupling experimental data with individual-based modelling reveals differential effects of root herbivory on grassland plant co-existence along a resource gradient
JF  - Journal of vegetation science
N2  - QuestionThe empirical evidence of root herbivory effects on plant community composition and co-existence is contradictory. This originates from difficulties connected to below-ground research and confinement of experimental studies to a small range of environmental conditions. Here we suggest coupling experimental data with an individual-based model to overcome the limitations inherent in either approach. To demonstrate this, we investigated the consequences of root herbivory, as experimentally observed on individual plants, on plant competition and co-existence in a population and community context under different root herbivory intensities (RHI), fluctuating and constant root herbivore activity and grazing along a resource gradient. LocationBerlin, Germany, glasshouse; Potsdam, Germany, high performance cluster computer. MethodsThe well-established community model IBC-Grass was adapted to allow for a flexible species parameterization and to include annual species. Experimentally observed root herbivory effects on performance of eight common grassland plant species were incorporated into the model by altering plant growth rates. We then determined root herbivore effects on plant populations, competitive hierarchy and consequences for co-existence and community diversity. ResultsRoot herbivory reduced individual biomass, but temporal fluctuation allowed for compensation of herbivore effects. Reducing resource availability strongly shifted competitive hierarchies, with, however, more similar hierarchies along the gradient under root herbivory, pointing to reduced ecological species differences. Consequently, negative effects on co-existence and diversity prevailed, with the exception of a few positive effects on co-existence of selected species pairs. Temporal fluctuation alleviated but did not remove negative root herbivore effects, despite of the stronger influence of intra- compared to interspecific competition. Grazing in general augmented co-existence. Most interestingly, grazing interacted with RHI and resource availability by promoting positive effects of root herbivory. ConclusionsThrough integrating experimental data on the scale of individual plants with a simulation model we verified that root herbivory could affect plant competition with consequences for species co-existence. Our approach demonstrates the benefit that accrues when empirical and modelling approaches are brought more closely together, and that gathering data on distinct processes and under specific conditions, combined with appropriate models, can be used to answer challenging research questions in a more general way.
KW  - Above-/below-ground interactions
KW  - Below-ground resources
KW  - Competitive hierarchies
KW  - Grassland
KW  - Greenhouse experiment
KW  - Simulation experiment
KW  - Species co-existence
KW  - Wireworms
Y1  - 2016
U6  - https://doi.org/10.1111/jvs.12357
SN  - 1100-9233
SN  - 1654-1103
VL  - 27
SP  - 269
EP  - 282
PB  - Wiley-Blackwell
CY  - Hoboken
ER  - 
TY  - THES
A1  - Pfestorf, Hans
T1  - Land use intensity and insect root herbivores
BT  - from spatial pattern to plant community feedback
Y1  - 2015
ER  - 
TY  - JOUR
A1  - Weiss, Lina
A1  - Pfestorf, Hans
A1  - May, Felix
A1  - Körner, Katrin
A1  - Boch, Steffen
A1  - Fischer, Markus
A1  - Müller, Jörg
A1  - Prati, Daniel
A1  - Socher, Stephanie A.
A1  - Jeltsch, Florian
T1  - Grazing response patterns indicate isolation of semi-natural European grasslands
JF  - Oikos
N2  - Identifying drivers of species diversity is a major challenge in understanding and predicting the dynamics of species-rich semi-natural grasslands. In particular in temperate grasslands changes in land use and its consequences, i.e. increasing fragmentation, the on-going loss of habitat and the declining importance of regional processes such as seed dispersal by livestock, are considered key drivers of the diversity loss witnessed within the last decades.
Y1  - 2014
U6  - https://doi.org/10.1111/j.1600-0706.2013.00957.x
SN  - 0030-1299
SN  - 1600-0706
VL  - 123
IS  - 5
SP  - 599
EP  - 612
PB  - Wiley-Blackwell
CY  - Hoboken
ER  - 
TY  - JOUR
A1  - Wilting, A.
A1  - Patel, R.
A1  - Pfestorf, Hans
A1  - Kern, C.
A1  - Sultan, K.
A1  - Ario, A.
A1  - Penaloza, F.
A1  - Kramer-Schadt, S.
A1  - Radchuk, Viktoriia
A1  - Foerster, D. W.
A1  - Fickel, Jörns
T1  - Evolutionary history and conservation significance of the Javan leopard Panthera pardus melas
JF  - Journal of zoology : proceedings of the Zoological Society of London
N2  - The leopard Panthera pardus is widely distributed across Africa and Asia; however, there is a gap in its natural distribution in Southeast Asia, where it occurs on the mainland and on Java but not on the interjacent island of Sumatra. Several scenarios have been proposed to explain this distribution gap. Here, we complemented an existing dataset of 68 leopard mtDNA sequences from Africa and Asia with mtDNA sequences (NADH5+ ctrl, 724bp) from 19 Javan leopards, and hindcasted leopard distribution to the Pleistocene to gain further insights into the evolutionary history of the Javan leopard. Our data confirmed that Javan leopards are evolutionarily distinct from other Asian leopards, and that they have been present on Java since the Middle Pleistocene. Species distribution projections suggest that Java was likely colonized via a Malaya-Java land bridge that by-passed Sumatra, as suitable conditions for leopards during Pleistocene glacial periods were restricted to northern and western Sumatra. As fossil evidence supports the presence of leopards on Sumatra at the beginning of the Late Pleistocene, our projections are consistent with a scenario involving the extinction of leopards on Sumatra as a consequence of the Toba super volcanic eruption (similar to 74kya). The impact of this eruption was minor on Java, suggesting that leopards managed to survive here. Currently, only a few hundred leopards still live in the wild and only about 50 are managed in captivity. Therefore, this unique and distinctive subspecies requires urgent, concerted conservation efforts, integrating insitu and ex situ conservation management activities in a One Plan Approach to species conservation management.
KW  - biogeography
KW  - evolutionary history
KW  - Felidae
KW  - Southeast Asia
KW  - Toba eruption
KW  - One Plan Approach
KW  - Pleistocene
KW  - Javan leopard
Y1  - 2016
U6  - https://doi.org/10.1111/jzo.12348
SN  - 0952-8369
SN  - 1469-7998
VL  - 299
SP  - 239
EP  - 250
PB  - Wiley-Blackwell
CY  - Hoboken
ER  - 
TY  - JOUR
A1  - Patel, Riddhi P.
A1  - Förster, Daniel W.
A1  - Kitchener, Andrew C.
A1  - Rayan, Mark D.
A1  - Mohamed, Shariff W.
A1  - Werner, Laura
A1  - Lenz, Dorina
A1  - Pfestorf, Hans
A1  - Kramer-Schadt, Stephanie
A1  - Radchuk, Viktoriia
A1  - Fickel, Jörns
A1  - Wilting, Andreas
T1  - Two species of Southeast Asian cats in the genus Catopuma with diverging histories: an island endemic forest specialist and a widespread habitat generalist
JF  - Royal Society Open Science
N2  - Background. The bay cat Catopuma badia is endemic to Borneo, whereas its sister species the Asian golden cat Catopuma temminckii is distributed from the Himalayas and southern China through Indochina, Peninsular Malaysia and Sumatra. Based onmorphological data, up to five subspecies of the Asian golden cat have been recognized, but a taxonomic assessment, including molecular data and morphological characters, is still lacking. Results. We combined molecular data (whole mitochondrial genomes), morphological data (pelage) and species distribution projections (up to the Late Pleistocene) to infer how environmental changes may have influenced the distribution of these sister species over the past 120 000 years. The molecular analysis was based on sequenced mitogenomes of 3 bay cats and 40 Asian golden cats derived mainly from archival samples. Our molecular data suggested a time of split between the two species approximately 3.16 Ma and revealed very low nucleotide diversity within the Asian golden cat population, which supports recent expansion of the population. Discussion. The low nucleotide diversity suggested a population bottleneck in the Asian golden cat, possibly caused by the eruption of the Toba volcano in Northern Sumatra (approx. 74 kya), followed by a continuous population expansion in the Late Pleistocene/Early Holocene. Species distribution projections, the reconstruction of the demographic history, a genetic isolation-by-distance pattern and a gradual variation of pelage pattern support the hypothesis of a post-Toba population expansion of the Asian golden cat from south China/Indochina to PeninsularMalaysia and Sumatra. Our findings reject the current classification of five subspecies for the Asian golden cat, but instead support either a monotypic species or one comprising two subspecies: (i) the Sunda golden cat, distributed south of the Isthmus of Kra: C. t. temminckii and (ii) Indochinese, Indian, Himalayan and Chinese golden cats, occurring north of the Isthmus: C. t. moormensis.
KW  - Felidae
KW  - Southeast Asia
KW  - last glacial maximum
KW  - Toba volcanic eruption
KW  - hybrid capture
KW  - next generation sequencing
Y1  - 2016
U6  - https://doi.org/10.1098/rsos.160350
SN  - 2054-5703
VL  - 3
SP  - 741
EP  - 752
PB  - Royal Society
CY  - London
ER  -