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2. Functional redundancy of weed seed predation is reduced by intensified agriculture

Author

Daouti, Eirini, Neidel, Veronika, Carbonne, Benjamin, Vašková, Hana, Traugott, Michael, Wallinger, Corinna, Bommarco, Riccardo, Feit, Benjamin, Bohan, David A., Saska, Pavel, Skuhrovec, Jiří, Vasconcelos, Sasha, Petit, Sandrine, van der Werf, Wopke, Jonsson, Mattias, Daouti, Eirini, Neidel, Veronika, Carbonne, Benjamin, Vašková, Hana, Traugott, Michael, Wallinger, Corinna, Bommarco, Riccardo, Feit, Benjamin, Bohan, David A., Saska, Pavel, Skuhrovec, Jiří, Vasconcelos, Sasha, Petit, Sandrine, van der Werf, Wopke, and Jonsson, Mattias

Abstract

Intensified agriculture, a driver of biodiversity loss, can diminish ecosystem functions and their stability. Biodiversity can increase functional redundancy and is expected to stabilize ecosystem functions. Few studies, however, have explored how agricultural intensity affects functional redundancy and its link with ecosystem function stability. Here, within a continental-wide study, we assess how functional redundancy of seed predation is affected by agricultural intensity and landscape simplification. By combining carabid abundances with molecular gut content data, functional redundancy of seed predation was quantified for 65 weed genera across 60 fields in four European countries. Across weed genera, functional redundancy was reduced with high field management intensity and simplified crop rotations. Moreover, functional redundancy increased the spatial stability of weed seed predation at the field scale. We found that ecosystem functions are vulnerable to disturbances in intensively managed agroecosystems, providing empirical evidence of the importance of biodiversity for stable ecosystem functions across space.

Published
2024

3. Data for: Functional redundancy of weed seed predation is reduced by intensified agriculture

Author

Daouti, Eirini, Neidel, Veronika, Carbonne, Benjamin, Vašková, Hana, Traugott, Michael, Wallinger, Corinna, Bommarco, Riccardo, Feit, Benjamin, Bohan, David Andrew, Saska, Pavel, Skuhrovec, Jiří, Vasconcelos, Sasha, Petit, Sandrine, van der Werf, Wopke, Jonsson, Mattias, Daouti, Eirini, Neidel, Veronika, Carbonne, Benjamin, Vašková, Hana, Traugott, Michael, Wallinger, Corinna, Bommarco, Riccardo, Feit, Benjamin, Bohan, David Andrew, Saska, Pavel, Skuhrovec, Jiří, Vasconcelos, Sasha, Petit, Sandrine, van der Werf, Wopke, and Jonsson, Mattias

Abstract

Intensive agriculture, a driver of biodiversity loss, can diminish ecosystem functions and their stability. Biodiversity can increase functional redundancy and is expected to stabilize ecosystem functions. Few studies however have explored how agricultural intensity affects functional redundancy and its link with ecosystem function stability. Here, within a continent-wide study, we assess how the functional redundancy of seed predation is affected by agricultural intensity and landscape simplification. By combining carabid abundances with molecular gut content data, functional redundancy of seed predation was quantified for 65 weed genera across 60 fields in four European countries. Across weed genera, functional redundancy was reduced with high field management intensity and simplified crop rotations. Moreover, functional redundancy increased the spatial stability of weed seed predation within fields. We found that ecosystem functions are vulnerable to disturbance in intensively managed agroecosystems, providing empirical evidence of the importance of biodiversity for stable ecosystem functions across space.

Published
2024

4. Soil seed bank richness, abundance and density across spatial scales and global biomes

Author

Auffret, Alistair G., primary, Ladouceur, Emma, additional, Haussmann, Natalie S., additional, Keil, Petr, additional, Daouti, Eirini, additional, Elumeeva, Tatiana G., additional, Kačergytė, Ineta, additional, Knape, Jonas, additional, Kotowska, Dorota, additional, Low, Matthew, additional, Onipchenko, Vladimir G., additional, Paquet, Matthieu, additional, Rubene, Diana, additional, and Plue, Jan, additional

Published
2023
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6. Mixed effects of oak woodlands on biocontrol potential and pest pressure in olive orchards under management intensification

Author

Vasconcelos, Sasha, primary, Pina, Sílvia, additional, Jonsson, Mattias, additional, Heleno, Ruben, additional, Herrera, José M., additional, Moreira, Francisco, additional, Silva, Bruno, additional, Melguizo-Ruiz, Nereida, additional, Daouti, Eirini, additional, Jiménez-Navarro, Gerardo, additional, and Beja, Pedro, additional

Published
2023
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7. A global database of soil seed bank richness, density, and abundance.

Author

Auffret, Alistair G., Ladouceur, Emma, Haussmann, Natalie S., Daouti, Eirini, Elumeeva, Tatiana G., Kačergytė, Ineta, Knape, Jonas, Kotowska, Dorota, Low, Matthew, Onipchenko, Vladimir G., Paquet, Matthieu, Rubene, Diana, and Plue, Jan

Abstract

A soil seed bank is the collective name for viable seeds that are stored naturally in the soil. At the species or population level, the ability to form a seed bank represents a strategy for (re)colonization following a disturbance or other change in the local environmental conditions. At the community level, seed banks are thought to buffer local diversity during periods of environmental change and are often studied in relation to the potential for passive habitat restoration. The role that seed banks play in plant population and community dynamics, as well as their importance in the agricultural sector, means that they have been widely studied in ecological research. This database is the result of a comprehensive literature search, including all seed bank studies from the Web of Science from which data could be extracted, as well as an additional search of the Russian language literature. The database contains information on the species richness, seed density, and/or seed abundance in 3096 records from at least 1929 locations across the world's seven continents, extracted from 1442 studies published between 1940 and 2020. Records are grouped into five broad habitat categories (aquatic, arable, forest, grassland—including shrubland—and wetland), including information relating to habitat degradation from, or restoration to other habitats (total 14 combinations). Sampling protocols were also extracted for each record, and the database was extensively checked for errors. The location of each record was then used to extract summary climate data and biome classification from external published databases. The database has several potential uses. The large geographical spread relative to many other global biodiversity datasets is relevant for investigating patterns of diversity in biogeographical or macroecological contexts. Habitat type and status (intact, degraded, and restored) can be used to provide insights for biodiversity conservation, while the potential effects of sampling method and effort can be used to inform optimized data collection for future seed bank studies. This database is released under the CC‐BY license. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Le paysage et les pratiques agricoles affectent les carabes régulateurs des adventices, e façon directe ou en modulant la disponibilit´e de leurs ressources trophiques : une analyse pan-européenne

Author

Carbonne, Benjamin, Bohan, David, Foffova, Hana, Daouti, Eirini, Frei, Britta, Neidel, Veronika, Saska, Pavel, Skuhrovec, Jiri, Petit, Sandrine, EL Mjiyad, Noureddine, Agroécologie [Dijon], Université de Bourgogne (UB)-AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement-Université Bourgogne Franche-Comté [COMUE] (UBFC)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Ecosystèmes, biodiversité, évolution [Rennes] (ECOBIO), Université de Rennes (UR)-Institut Ecologie et Environnement (INEE), Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS)-Observatoire des Sciences de l'Univers de Rennes (OSUR), Université de Rennes (UR)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Rennes 2 (UR2)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Rennes 2 (UR2)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Centre National de la Recherche Scientifique (CNRS), Functional Diversity in Agro-Ecosystems, Crop Research Institute { Drnovsk´a 507, 161 06 Praha 6 { Ruzynˇe, R´epublique tch`eque, Department of Ecology, Faculty of Environmental Sciences, Czech University of Life Sciences Prague { Kam´yck´a 129, 165 00 Praha { Suchdol, R´epublique tch`eque, Swedish University of Agricultural Sciences (SLU), and Universität Innsbruck [Innsbruck]

Subjects
[SDE] Environmental Sciences, complexité du paysage, ressources trophiques, régulation, [SDE]Environmental Sciences, carabe, adventices, stock semencier, gestion agricole
Abstract

National audience; Les carabes sont des agents de lutte biologique importants qui contribuent au service´ecosyst´emique de r´egulation du stock semencier des adventices gr^ace `a la pr´edation desgraines. Pour encourager l’adoption de ce service par les agriculteurs, il est crucial d’´evaluerla contribution des carabes `a cette r´egulation, et de mieux comprendre les d´eterminants deleur pr´esence dans les parcelles. La complexit´e du paysage et l’intensit´e de la gestion agricole peuvent directement affecter les carabes. Cet effet peut ´egalement ^etre indirect, via unemodulation des ressources trophiques disponibles pour les carabes, bien que peu d´ecrit dansla litt´erature.Nous avons ´evalu´e dans 60 parcelles de c´er´eales `a travers l’Europe le stock semencier d’adventices,les carabes et les ressources trophiques (graines, proies animales). En parall`ele, le contextepaysager et la gestion agricole des 60 parcelles ont ´et´e document´es. Une mod´elisation par´equations structurelles nous a permis de quantifier les effets directs de la gestion agricole et du paysage environnant, et leurs effets indirects via les ressources trophiques, sur les carabes.Nos r´esultats indiquent que les carabes contribuent significativement `a r´eduire le renouvellement du stock semencier des adventices d’une ann´ee sur l’autre. La richesse et l’abondancedes carabes sont affect´ees positivement par la complexit´e du paysage environnant, et cela, defa¸con directe et indirecte, via les ressources trophiques. Nos r´esultats ne d´etectent qu’un effetindirect et g´en´eralement n´egatif de l’intensit´e de la gestion agricole sur les carabes (abondance, richesse), li´e `a la r´eduction des adventices et des graines.Notre ´etude souligne la contribution des carabes `a la r´egulation du stock semencier des adventices, et cela `a une ´echelle europ´eenne. De plus, nous montrons que les carabes peuvent-^etrefavoris´es par l’augmentation de la diversit´e des cultures et de leur connectivit´e aux habitatssemi-naturels, en combinaison avec une r´eduction de l’intensit´e de la gestion agricole.

Published
2021

12. Weed seed predation : a promising ecosystem service in agriculture

Author

Daouti, Eirini Lamprini

Subjects
Ecology, Agricultural Science
Abstract

Enhancing biodiversity and promoting vital ecosystem services can reduce the global dependence on anthropogenic inputs in agriculture while securing crop yield. Weed infestation can severely reduce crop yield but the dominance of herbicides for weed control can impair human health, beneficial organisms and ecosystem service delivery. Thus, it is essential to identify more sustainable alternatives for weed control. Using data from four European countries, this thesis examined whether the ecosystem service of weed seed predation in cereal fields can be a viable alternative for regulation of weeds. The impact of agricultural intensity on weed seed predation, weed regulation and functional redundancy in predation was investigated, as well as the role of seed and alternative prey availability. The results showed that through weed seed predation, regulation of weeds at population and community level is achievable. Weed seed availability increased predators’ potential for weed seed predation, but higher alternative prey biomass reduced seed consumption. Functional diversity in predation increased the spatial stability of weed seed predation. Agricultural intensity decreased weed seed predation and functional redundancy in predation estimates, via increased disturbances at field level, reduced diversity of crops sown in rotation and reduced landscape heterogeneity. These findings confirm the potential of weed seed predation for sustainable weed control and suggest that to support weed seed predators and the service they provide we need to reduce field management intensity and diversify cropping systems at both field and landscape scale.

Published
2021

14. Seed predation is key to preventing population growth of the weed Alopecurus myosuroides.

Author

Daouti, Eirini, Jonsson, Mattias, Vico, Giulia, and Menegat, Alexander

Subjects
*PREDATION, *WEEDS, *WEED control, *WINTER wheat, *SEEDS, *GRANIVORES, *STOCHASTIC matrices, *WEED seeds
Abstract

Seed predation can reduce the abundance and spread of unwanted vegetation in agricultural and other semi‐natural ecosystems. However, knowledge of how variations in seed predation rates affect plant species population dynamics is needed for decision making and knowledge‐based ecosystem management.We developed a stage‐classified stochastic matrix population model for Alopecurus myosuroides Huds. (blackgrass), an annual plant species thriving as a weed in temperate agroecosystems of Western and Northern Europe. The model was parameterised using empirical demographic data from long‐term experiments in Swedish winter wheat fields, including information on post‐dispersal seed losses by vertebrate and invertebrate seed predators.For agroecosystems with highly effective weed control measures (e.g. chemical and mechanical weed control), model simulations showed that seed losses via seed predation need to reach at least 78% at peak seed shedding to suppress population growth of A. myosuroides.The field experiment showed that vertebrates were most important for seed predation in July, at peak seed shedding. In August, after crop harvest, invertebrates were responsible for almost all seed predation. The model indicated that weed seed predation was much more important for weed regulation when it occurred before crop harvest in July. Vertebrates most strongly reduced population growth of A. myosuroides, although both vertebrates and invertebrates were needed to prevent it entirely.Synthesis and applications. We showed that weed seed predation by vertebrate and invertebrate seed predators is key for reducing the population growth of winter annual weeds like A. myosuroides in intensively managed agroecosystems. Therefore, protection of weed seed predators is essential for making management of unwanted vegetation less dependent on chemical and mechanical measures. [ABSTRACT FROM AUTHOR]

Published
2022
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15. Direct and indirect effects of landscape and field management intensity on carabids through trophic resources and weeds.

Author

Carbonne, Benjamin, Bohan, David A., Foffová, Hana, Daouti, Eirini, Frei, Britta, Neidel, Veronika, Saska, Pavel, Skuhrovec, Jiří, and Petit, Sandrine

Subjects
GROUND beetles, INDUCTIVE effect, BIOLOGICAL weed control, WEEDS, WEED seeds, BIOLOGICAL pest control agents, PREY availability, WEED competition
Abstract

Carabids are important biological control agents of weeds and other pests in agricultural fields. The carabid community is built upon direct and indirect ecological effects of landscape complexity, field management intensity and biotic components that in interaction make any prediction of community size and composition challenging.We analyse a large‐scale sample of 60 European cereal fields using structural equation modelling to quantify the direct effects of field management intensity and the surrounding landscape, and their indirect effect via biotic components, on carabid diversity.Our results highlight that direct and indirect effects of increasing landscape complexity, mediated by trophic resources, mainly affect carabids positively. Field management intensity only ever affects carabids through indirect effects that are generally negative, by suppressing standing weeds and weed seeds.Indirect effects on granivore carabid species depended on weed seed availability, whereas omnivores depended on the availability of both weed seeds and animal prey.Synthesis and applications. A consideration of both the direct and indirect effects of landscape and field management is necessary for predicting carabid communities. These indirect effects, mediated via trophic resources, supports the diversity and abundance of carabid communities and their provision of ecosystem services. Our results show that promoting crop diversity and connectivity to semi‐natural habitats will directly enhance carabid communities in farmland by manipulating their migration from source habitats and indirectly by promoting the presence and diversity of their trophic resources. A reduction in field management intensity will preserve local standing weeds and weed seeds, and indirectly support carabid communities. These local and landscape modifications could contribute to improve the natural regulation of pests and weeds by carabids. [ABSTRACT FROM AUTHOR]

Published
2022
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16. Breeding dynamics of a Golden Eagle (Aquila chrysaetos) population in the boreal forest of Sweden

Author

Daouti, Eirini - Lamprini and Daouti, Eirini - Lamprini

Abstract

Successful conservation and management of Golden Eagle (Aquila chrysaetos) requires an in-depth understanding of its’ demographic parameters. The species in Sweden is listed as Near Threatened and threats include increasing demands for renewable energy, collisions with railways, illegal persecution, and lead poisoning. Breeding performance and survival estimates can be used to increase the knowledge of the population dynamics of this apex predator. I estimated breeding performance of Golden eagles by using citizen science data from 44 territories in Northern Sweden from 1995 to 2015.Ring recovery data from the National ringing database of the Stockholm museum of Natural history, were used to estimate population and age-specific survival. Weather, voles’ density and topographic variables incorporated to Generalized Linear Mixed Models (GLMMs) to explain the patterns of breeding success. In continue, fecundity and survival estimates used to structure a stage-structured Lefkovitch population projection matrix to estimate population growth, stable stage distribution and elasticities and sensitivities of the growth rate. Long term population fecundity was estimated to be 0.51 (young per pair) and breeding success it is likely to be affected by vole index, snow depth and precipitation preceding the breeding period and average temperature during the breeding. The best approximating model explained the 29% of the total breeding variance, which questions the size of the effect of habitat features and human-induced disturbance to Golden Eagles reproductive performance. Survival rates were similar with those reported in the U.S. with older individuals exhibiting higher survivorship (0.89) from the first age class (0.79). The population exhibits a positive growth rate (1.1) while elasticities and sensitivities of the growth rate indicate that the most influential transition for the population growth is the one from 3 years old to 4 years old, while individuals older than 4 year

Published
2017

17. Functional redundancy of weed seed predation is reduced by intensified agriculture.

Author

Daouti E, Neidel V, Carbonne B, Vašková H, Traugott M, Wallinger C, Bommarco R, Feit B, Bohan DA, Saska P, Skuhrovec J, Vasconcelos S, Petit S, van der Werf W, and Jonsson M

Subjects
Animals, Biodiversity, Seeds, Agriculture, Ecosystem, Predatory Behavior
Abstract

Intensified agriculture, a driver of biodiversity loss, can diminish ecosystem functions and their stability. Biodiversity can increase functional redundancy and is expected to stabilize ecosystem functions. Few studies, however, have explored how agricultural intensity affects functional redundancy and its link with ecosystem function stability. Here, within a continental-wide study, we assess how functional redundancy of seed predation is affected by agricultural intensity and landscape simplification. By combining carabid abundances with molecular gut content data, functional redundancy of seed predation was quantified for 65 weed genera across 60 fields in four European countries. Across weed genera, functional redundancy was reduced with high field management intensity and simplified crop rotations. Moreover, functional redundancy increased the spatial stability of weed seed predation at the field scale. We found that ecosystem functions are vulnerable to disturbances in intensively managed agroecosystems, providing empirical evidence of the importance of biodiversity for stable ecosystem functions across space., (© 2024 The Authors. Ecology Letters published by John Wiley & Sons Ltd.)

Published
2024
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18. Landscape complexity promotes resilience of biological pest control to climate change.

Author

Feit B, Blüthgen N, Daouti E, Straub C, Traugott M, and Jonsson M

Subjects
Agriculture, Pest Control, Biological, Climate Change, Ecosystem
Abstract

Increased climate variability as a result of anthropogenic climate change can threaten the functioning of ecosystem services. However, diverse responses to climate change among species (response diversity) can provide ecosystems with resilience to this growing threat. Measuring and managing response diversity and resilience to global change are key ecological challenges. Here, we develop a novel index of climate resilience of ecosystem services, exemplified by the thermal resilience of predator communities providing biological pest control. Field assays revealed substantial differences in the temperature-dependent activity of predator species and indices of thermal resilience varied among predator communities occupying different fields. Predator assemblages with higher thermal resilience provided more stable pest control in microcosms where the temperature was experimentally varied, confirming that the index of thermal resilience developed here is linked to predator function. Importantly, complex landscapes containing a high number of non-crop habitat patches were more likely to contain predator communities with high thermal resilience. Thus, the conservation and restoration of non-crop habitats in agricultural landscapes-practices known to strengthen natural pest suppression under current conditions-will also confer resilience in ecosystem service provisioning to climate change.

Published
2021
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