14 results on '"Mantilla-Contreras J"'
Search Results
2. Trait correlation network analysis identifies biomass allocation traits and stem specific length as hub traits in herbaceous perennial plants
- Author
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Kleyer, M., Trinogga, J., Cebrián-Piqueras, M.A., Trenkamp, A., Fløjgaard, C., Ejrnaes, R., Bouma, T.J., Minden, V., Maier, M., Mantilla-Contreras, J., Albach, D.C., Blasius, B., Kleyer, M., Trinogga, J., Cebrián-Piqueras, M.A., Trenkamp, A., Fløjgaard, C., Ejrnaes, R., Bouma, T.J., Minden, V., Maier, M., Mantilla-Contreras, J., Albach, D.C., and Blasius, B.
- Abstract
1. Correlations among plant traits often reflect important trade‐offs or allometric relationships in biological functions like carbon gain, support, water uptake, and reproduction that are associated with different plant organs. Whether trait correlations can be aggregated to “spectra” or “leading dimensions,” whether these dimensions are consistent across plant organs, spatial scale, and growth forms are still open questions.2. To illustrate the current state of knowledge, we constructed a network of published trait correlations associated with the “leaf economics spectrum,” “biomass allocation dimension,” “seed dimension,” and carbon and nitrogen concentrations. This literature‐based network was compared to a network based on a dataset of 23 traits from 2,530 individuals of 126 plant species from 381 plots in Northwest Europe.3. The observed network comprised more significant correlations than the literature‐based network. Network centrality measures showed that size traits such as the mass of leaf, stem, below‐ground, and reproductive tissues and plant height were the most central traits in the network, confirming the importance of allometric relationships in herbaceous plants. Stem mass and stem‐specific length were “hub” traits correlated with most traits. Environmental selection of hub traits may affect the whole phenotype. In contrast to the literature‐based network, SLA and leaf N were of minor importance. Based on cluster analysis and subsequent PCAs of the resulting trait clusters, we found a “size” module, a “seed” module, two modules representing C and N concentrations in plant organs, and a “partitioning” module representing organ mass fractions. A module representing the plant economics spectrum did not emerge.4. Synthesis. Although we found support for several trait dimensions, the observed trait network deviated significantly from current knowledge, suggesting that previous studies have overlooked trait coordination at the whole‐plant level. F
- Published
- 2019
3. An alternative for agriculture at Lake Alaotra, Madagascar: organic fertilizer and soil amendment from the invasive water hyacinth (Eichhornia crassipes).
- Author
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Rakotoarisoa, T., Richter, T., Schmidt, N., and Mantilla Contreras, J.
- Abstract
Copyright of Madagascar Conservation & Development is the property of Journal Madagascar Wildlife Conservation and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
- Published
- 2020
- Full Text
- View/download PDF
4. Madagascar's open landscapes under the spotlight : editorial
- Author
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Mantilla-Contreras, J. and Carrière, Stéphanie M.
- Published
- 2015
5. The influence of balanced and imbalanced resource supply on biodiversity–functioning relationship across ecosystems
- Author
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Lewandowska, A.M., Biermann, A., Borer, E.T., Cebrián-Piqueras, M.A., Declerck, S.A.J., De Meester, L., Van Donk, E., Gamfeldt, L., Gruner, D.S., Hagenah, N., Harpole, William Stanley, Kirkman, K.P., Klausmeier, C.A., Kleyer, M., Knops, J.M.H., Lemmens, P., Lind, E.M., Litchman, E., Mantilla-Contreras, J., Martens, K., Meier, S., Minden, V., Moore, J.L., Venterink, H.O., Seabloom, E.W., Sommer, U., Striebel, M., Trenkamp, A., Trinogga, J., Urabe, J., Vyverman, W., Van de Waal, D.B., Widdicombe, C.E., Hillebrand, H., Lewandowska, A.M., Biermann, A., Borer, E.T., Cebrián-Piqueras, M.A., Declerck, S.A.J., De Meester, L., Van Donk, E., Gamfeldt, L., Gruner, D.S., Hagenah, N., Harpole, William Stanley, Kirkman, K.P., Klausmeier, C.A., Kleyer, M., Knops, J.M.H., Lemmens, P., Lind, E.M., Litchman, E., Mantilla-Contreras, J., Martens, K., Meier, S., Minden, V., Moore, J.L., Venterink, H.O., Seabloom, E.W., Sommer, U., Striebel, M., Trenkamp, A., Trinogga, J., Urabe, J., Vyverman, W., Van de Waal, D.B., Widdicombe, C.E., and Hillebrand, H.
- Abstract
Numerous studies show that increasing species richness leads to higher ecosystem productivity. This effect is often attributed to more efficient portioning of multiple resources in communities with higher numbers of competing species, indicating the role of resource supply and stoichiometry for biodiversity–ecosystem functioning relationships. Here, we merged theory on ecological stoichiometry with a framework of biodiversity–ecosystem functioning to understand how resource use transfers into primary production. We applied a structural equation model to define patterns of diversity–productivity relationships with respect to available resources. Meta-analysis was used to summarize the findings across ecosystem types ranging from aquatic ecosystems to grasslands and forests. As hypothesized, resource supply increased realized productivity and richness, but we found significant differences between ecosystems and study types. Increased richness was associated with increased productivity, although this effect was not seen in experiments. More even communities had lower productivity, indicating that biomass production is often maintained by a few dominant species, and reduced dominance generally reduced ecosystem productivity. This synthesis, which integrates observational and experimental studies in a variety of ecosystems and geographical regions, exposes common patterns and differences in biodiversity–functioning relationships, and increases the mechanistic understanding of changes in ecosystems productivity.
- Published
- 2016
6. Environmental education in its infancy at Lake Alaotra, Madagascar
- Author
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Reibelt, LM, primary, Richter, T, additional, Waeber, PO, additional, Rakotoarimanana, S, additional, and Mantilla-Contreras, J, additional
- Published
- 2015
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7. Effects of dung-pad conditions and density on coprophagous beetle assemblages in a Mediterranean rangeland
- Author
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Jörn Buse, Julia T. Treitler, Jasmin Mantilla-Contreras, Stefan Zerbe, Giuseppe M. Carpaneto, Treitler, Jl, Buse, J, Carpaneto, Giuseppe, Zerbe, S, and Mantilla Contreras, J.
- Subjects
0106 biological sciences ,geography ,geography.geographical_feature_category ,Ecology ,biology ,010604 marine biology & hydrobiology ,Biodiversity ,Vegetation ,biology.organism_classification ,010603 evolutionary biology ,01 natural sciences ,Grassland ,Habitat ,Abundance (ecology) ,Vegetation type ,Large herbivores, Surrounding habitat, Microhabitat conditions, Sardinia, Species richness, Species composition ,Species richness ,Ecology, Evolution, Behavior and Systematics ,Nature and Landscape Conservation ,Dung beetle - Abstract
Dung beetles highly depend on the ephemeral microhabitat dung which is food resource and larval habitat at the same time. Environmental conditions surrounding a dung pad, such as vegetation structure, have an impact on dung beetle assemblages. We investigated the influence of dung conditions and surrounding habitat characteristics on Mediterranean dung beetle assemblages in a permanently grazed landscape in northern Sardinia. We sampled the dung beetle assemblages of donkey and horse dung in three different vegetation types and assessed species richness and abundance of dung beetles. Species richness was determined by dung and surrounding habitat conditions, whereas abundance was solely affected by dung conditions. However, species richness and abundance decreased with increasing dung density. The effect of dung density on species richness varied depending on vegetation type, with dry grassland exhibiting the highest number of dung beetles species at high dung density. Species composition in dung pads was influenced by abiotic factors with dwellers being negatively affected by increasing dung-pad temperature. Our results underline the importance of diverse vegetation, particularly with respect to the complexity of vegetation which interrelates with the microclimate. Furthermore, our findings illustrate the negative effect of high dung densities on dung beetle assemblages, suggesting that the degree of the intensity of use by grazing animals is important when considering measures for the conservation of dung beetles.
- Published
- 2017
8. Digging into the roots: understanding direct and indirect drivers of ecosystem service trade-offs in coastal grasslands via plant functional traits.
- Author
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Cebrián-Piqueras MA, Trinogga J, Trenkamp A, Minden V, Maier M, and Mantilla-Contreras J
- Subjects
- Environmental Monitoring, Plant Leaves, Plant Roots, Plants, Ecosystem, Grassland
- Abstract
Recent empirical and theoretical approaches have called for an understanding of the processes underpinning ecosystem service provision. Environmental gradients have shown effects on key plant functional traits that subsequently explain ecosystem properties of several systems. However, little is known concerning how associations between plant functional traits, including both below- and aboveground plant components, predict ecosystem properties and independently measured final ecosystem services. Here, we modeled (1) the responses of the leaf and plant economics spectrum, Plant size axis, and root growth to environmental gradients and (2) how associations between plant functional traits explain trade-offs and synergies between multiple ecosystem properties and final services. Forty-four plots were studied in a coastal marsh landscape of the German North Sea Coast. We used a partial least square structural equation model approach to test the hypothesized model. We found (1) a negative covariation between plant traits pertaining to a size axis and traits explaining both plant growth (roots and stems) and the leaf economics spectrum; (2) this trade-off responded significantly to the land use gradient and nutrient availability, which were both strongly driven by the groundwater gradient; (3) this trade-off explained an initial major trade-off between carbon stocks, at one extreme of the axis, and both the habitat value to conserve endangered plants and forage production for meat and dairy products at the other extreme. However, a secondary trade-off between nature conservation value and forage production, explained by a trade-off between leaf economics spectrum and plant growth in response to the land use intensity gradient, was also found.
- Published
- 2021
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9. Ecology and morphology of mouse lemurs (Microcebus spp.) in a hotspot of microendemism in northeastern Madagascar, with the description of a new species.
- Author
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Schüßler D, Blanco MB, Salmona J, Poelstra J, Andriambeloson JB, Miller A, Randrianambinina B, Rasolofoson DW, Mantilla-Contreras J, Chikhi L, Louis EE Jr, Yoder AD, and Radespiel U
- Subjects
- Animal Distribution, Animals, Ecosystem, Female, Madagascar, Male, Phylogeny, Reproduction physiology, Seasons, Species Specificity, Cheirogaleidae anatomy & histology, Cheirogaleidae classification, Cheirogaleidae physiology
- Abstract
Delimitation of cryptic species is increasingly based on genetic analyses but the integration of distributional, morphological, behavioral, and ecological data offers unique complementary insights into species diversification. We surveyed communities of nocturnal mouse lemurs (Microcebus spp.) in five different sites of northeastern Madagascar, measuring a variety of morphological parameters and assessing reproductive states for 123 individuals belonging to five different lineages. We documented two different non-sister lineages occurring in sympatry in two areas. In both cases, sympatric species pairs consisted of a locally restricted (M. macarthurii or M. sp. #3) and a more widespread lineage (M. mittermeieri or M. lehilahytsara). Estimated Extents of Occurrence (EOO) of these lineages differed remarkably with 560 and 1,500 km
2 versus 9,250 and 50,700 km2 , respectively. Morphometric analyses distinguished unambiguously between sympatric species and detected more subtle but significant differences among sister lineages. Tail length and body size were most informative in this regard. Reproductive schedules were highly variable among lineages, most likely impacted by phylogenetic relatedness and environmental variables. While sympatric species pairs differed in their reproductive timing (M. sp. #3/M. lehilahytsara and M. macarthurii/M. mittermeieri), warmer lowland rainforests were associated with a less seasonal reproductive schedule for M. mittermeieri and M. lehilahytsara compared with populations occurring in montane forests. Distributional, morphological, and ecological data gathered in this study support the results of genomic species delimitation analyses conducted in a companion study, which identified one lineage, M. sp. #3, as meriting formal description as a new species. Consequently, a formal species description is included. Worryingly, our data also show that geographically restricted populations of M. sp. #3 and its sister species (M. macarthurii) are at high risk of local and perhaps permanent extinction from both deforestation and habitat fragmentation., (© 2020 The Authors. American Journal of Primatology published by Wiley Periodicals LLC.)- Published
- 2020
- Full Text
- View/download PDF
10. Environment vs. Plant Ontogeny: Arthropod Herbivory Patterns on European Beech Leaves along the Vertical Gradient of Temperate Forests in Central Germany.
- Author
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Stiegel S and Mantilla-Contreras J
- Abstract
Environmental and leaf trait effects on herbivory are supposed to vary among different feeding guilds. Herbivores also show variability in their preferences for plant ontogenetic stages. Along the vertical forest gradient, environmental conditions change, and trees represent juvenile and adult individuals in the understorey and canopy, respectively. This study was conducted in ten forests sites in Central Germany for the enrichment of canopy research in temperate forests. Arthropod herbivory of different feeding traces was surveyed on leaves of Fagus sylvatica Linnaeus (European beech; Fagaceae) in three strata. Effects of microclimate, leaf traits, and plant ontogenetic stage were analyzed as determining parameters for herbivory. The highest herbivory was caused by exophagous feeding traces. Herbivore attack levels varied along the vertical forest gradient for most feeding traces with distinct patterns. If differences of herbivory levels were present, they only occurred between juvenile and adult F. sylvatica individuals, but not between the lower and upper canopy. In contrast, differences of microclimate and important leaf traits were present between the lower and upper canopy. In conclusion, the plant ontogenetic stage had a stronger effect on herbivory than microclimate or leaf traits along the vertical forest gradient., Competing Interests: The authors declare no conflicts of interest. The founding sponsors had no role in the design of the study; in the collection, analyses, or interpretation of data; in the writing of the manuscript; or in the decision to publish the results.
- Published
- 2018
- Full Text
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11. Complementing endozoochorous seed dispersal patterns by donkeys and goats in a semi-natural island ecosystem.
- Author
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Treitler JT, Drissen T, Stadtmann R, Zerbe S, and Mantilla-Contreras J
- Subjects
- Animals, Islands, Italy, Seasons, Species Specificity, Equidae physiology, Goats physiology, Herbivory, Seed Dispersal
- Abstract
Background: Endozoochory is, in grazing systems, a substantial vector for seed dispersal. It can play an important role in vegetation dynamics, especially in colonization processes through seed input on the vegetation and on the soil seed bank. We investigated the endozoochorous seed input of donkeys and goats on a semi-natural island ecosystem in the Mediterranean. Through germination experiments, we assessed the viable seed content of the dung of these grazing animals to estimate their suitability and efficiency for seed dispersal of the vegetation types of the island., Results: We show different dispersal patterns of donkeys and goats. Goats disperse a high number of diaspores from shrubs while donkeys disperse more diaspores of grasses. In addition, goats disperse plants of greater growth height and donkeys plants of shorter height. These dispersal patterns are in accordance with the vegetation types of which donkeys and goats disperse indicator species. Both, donkeys and goats, feed on and disperse species of the vegetation types, open grassland and temporarily wet grassland. In addition, goats feed on and disperse diagnostic species of the semi-open maquis and preforest formations., Conclusions: Overall, our results show that donkeys and goats are complementing each other in their endozoochorous seed dispersal potential. This emphasizes the importance of both grazing animals for the vegetation dynamics of the semi-natural island ecosystem. Therefore, the adaption of the goat management to a traditional land management based on directed transhumance might maintain and enrich vegetation types.
- Published
- 2017
- Full Text
- View/download PDF
12. Reading the Leaves' Palm: Leaf Traits and Herbivory along the Microclimatic Gradient of Forest Layers.
- Author
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Stiegel S, Entling MH, and Mantilla-Contreras J
- Subjects
- Acer physiology, Animals, Betulaceae physiology, Carbon metabolism, Ecosystem, Fagus physiology, Forests, Germany, Microclimate, Nitrogen metabolism, Herbivory physiology, Insecta physiology, Plant Leaves physiology
- Abstract
Microclimate in different positions on a host plant has strong direct effects on herbivores. But little is known about indirect effects due to changes of leaf traits. We hypothesized that herbivory increases from upper canopy to lower canopy and understory due to a combination of direct and indirect pathways. Furthermore, we hypothesized that herbivory in the understory differs between tree species in accordance with their leaf traits. We investigated herbivory by leaf chewing insects along the vertical gradient of mixed deciduous forest stands on the broad-leaved tree species Fagus sylvatica L. (European beech) with study sites located along a 140 km long transect. Additionally, we studied juvenile Acer pseudoplatanus L. (sycamore maple) and Carpinus betulus L. (hornbeam) individuals within the understory as a reference of leaf traits in the same microclimate. Lowest levels of herbivory were observed in upper canopies, where temperatures were highest. Temperature was the best predictor for insect herbivory across forest layers in our study. However, the direction was opposite to the generally known positive relationship. Herbivory also varied between the three tree species with lowest levels for F. sylvatica. Leaf carbon content was highest for F. sylvatica and probably indicates higher amounts of phenolic defense compounds. We conclude that the effect of temperature must have been indirect, whereby the expected higher herbivory was suppressed due to unfavorable leaf traits (lower nitrogen content, higher toughness and carbon content) of upper canopy leaves compared to the understory., Competing Interests: The authors have declared that no competing interests exist.
- Published
- 2017
- Full Text
- View/download PDF
13. The influence of balanced and imbalanced resource supply on biodiversity-functioning relationship across ecosystems.
- Author
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Lewandowska AM, Biermann A, Borer ET, Cebrián-Piqueras MA, Declerck SA, De Meester L, Van Donk E, Gamfeldt L, Gruner DS, Hagenah N, Harpole WS, Kirkman KP, Klausmeier CA, Kleyer M, Knops JM, Lemmens P, Lind EM, Litchman E, Mantilla-Contreras J, Martens K, Meier S, Minden V, Moore JL, Venterink HO, Seabloom EW, Sommer U, Striebel M, Trenkamp A, Trinogga J, Urabe J, Vyverman W, Van de Waal DB, Widdicombe CE, and Hillebrand H
- Subjects
- Animals, Biodiversity, Models, Biological, Plankton physiology, Plant Physiological Phenomena, Population Dynamics, Biomass, Ecosystem
- Abstract
Numerous studies show that increasing species richness leads to higher ecosystem productivity. This effect is often attributed to more efficient portioning of multiple resources in communities with higher numbers of competing species, indicating the role of resource supply and stoichiometry for biodiversity-ecosystem functioning relationships. Here, we merged theory on ecological stoichiometry with a framework of biodiversity-ecosystem functioning to understand how resource use transfers into primary production. We applied a structural equation model to define patterns of diversity-productivity relationships with respect to available resources. Meta-analysis was used to summarize the findings across ecosystem types ranging from aquatic ecosystems to grasslands and forests. As hypothesized, resource supply increased realized productivity and richness, but we found significant differences between ecosystems and study types. Increased richness was associated with increased productivity, although this effect was not seen in experiments. More even communities had lower productivity, indicating that biomass production is often maintained by a few dominant species, and reduced dominance generally reduced ecosystem productivity. This synthesis, which integrates observational and experimental studies in a variety of ecosystems and geographical regions, exposes common patterns and differences in biodiversity-functioning relationships, and increases the mechanistic understanding of changes in ecosystems productivity., (© 2016 The Author(s).)
- Published
- 2016
- Full Text
- View/download PDF
14. Consistent drivers of plant biodiversity across managed ecosystems.
- Author
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Minden V, Scherber C, Cebrián Piqueras MA, Trinogga J, Trenkamp A, Mantilla-Contreras J, Lienin P, and Kleyer M
- Subjects
- Europe, Models, Biological, Biodiversity, Biomass, Grassland, Plants, Wetlands
- Abstract
Ecosystems managed for production of biomass are often characterized by low biodiversity because management aims to optimize single ecosystem functions (i.e. yield) involving deliberate selection of species or cultivars. In consequence, considerable differences in observed plant species richness and productivity remain across systems, and the drivers of these differences have remained poorly resolved so far. In addition, it has remained unclear if species richness feeds back on ecosystem functions such as yield in real-world systems. Here, we establish N = 360 experimental plots across a broad range of managed ecosystems in several European countries, and use structural equation models to unravel potential drivers of plant species richness. We hypothesize that the relationships between productivity, total biomass and observed species richness are affected by management intensity, and that these effects differ between habitat types (dry grasslands, grasslands, and wetlands). We found that local management was an important driver of species richness across systems. Management caused system disturbance, resulting in reduced productivity yet enhanced total biomass. Plant species richness was directly and positively driven by management, with consistently negative effects of total biomass. Productivity effects on richness were positive, negative or neutral. Our study shows that management and total biomass drive plant species richness across real-world managed systems., (© 2016 The Author(s).)
- Published
- 2016
- Full Text
- View/download PDF
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