Your search keyword '"Bartomeus I"' showing total 103 results

1. Trait matching of flower visitors and crops predicts fruit set better than trait diversity

Author

Garibaldi, LA, Bartomeus, I, Bommarco, R, Klein, AM, Cunningham, SA, Aizen, MA, Boreux, V, Garratt, MPD, Carvalheiro, LG, Kremen, C, Morales, CL, Schüepp, C, Chacoff, NP, Freitas, BM, Gagic, V, Holzschuh, A, Klatt, BK, Krewenka, KM, Krishnan, S, Mayfield, MM, Motzke, I, Otieno, M, Petersen, J, Potts, SG, Ricketts, TH, Rundlöf, M, Sciligo, A, Sinu, PA, Steffan-Dewenter, I, Taki, H, Tscharntke, T, Vergara, CH, Viana, BF, and Woyciechowski, M

Subjects

agroecosystems, body size, ecosystem functioning, ecosystem services, mouthpart length, nectar accessibility, pollination, trait evenness, trait richness, Ecological Applications, Environmental Science and Management, Ecology

Abstract

Understanding the relationships between trait diversity, species diversity and ecosystem functioning is essential for sustainable management. For functions comprising two trophic levels, trait matching between interacting partners should also drive functioning. However, the predictive ability of trait diversity and matching is unclear for most functions, particularly for crop pollination, where interacting partners did not necessarily co-evolve. World-wide, we collected data on traits of flower visitors and crops, visitation rates to crop flowers per insect species and fruit set in 469 fields of 33 crop systems. Through hierarchical mixed-effects models, we tested whether flower visitor trait diversity and/or trait matching between flower visitors and crops improve the prediction of crop fruit set (functioning) beyond flower visitor species diversity and abundance. Flower visitor trait diversity was positively related to fruit set, but surprisingly did not explain more variation than flower visitor species diversity. The best prediction of fruit set was obtained by matching traits of flower visitors (body size and mouthpart length) and crops (nectar accessibility of flowers) in addition to flower visitor abundance, species richness and species evenness. Fruit set increased with species richness, and more so in assemblages with high evenness, indicating that additional species of flower visitors contribute more to crop pollination when species abundances are similar. Synthesis and applications. Despite contrasting floral traits for crops world-wide, only the abundance of a few pollinator species is commonly managed for greater yield. Our results suggest that the identification and enhancement of pollinator species with traits matching those of the focal crop, as well as the enhancement of pollinator richness and evenness, will increase crop yield beyond current practices. Furthermore, we show that field practitioners can predict and manage agroecosystems for pollination services based on knowledge of just a few traits that are known for a wide range of flower visitor species. Despite contrasting floral traits for crops world-wide, only the abundance of a few pollinator species is commonly managed for greater yield. Our results suggest that the identification and enhancement of pollinator species with traits matching those of the focal crop, as well as the enhancement of pollinator richness and evenness, will increase crop yield beyond current practices. Furthermore, we show that field practitioners can predict and manage agroecosystems for pollination services based on knowledge of just a few traits that are known for a wide range of flower visitor species.

Published

2015

2. Historical collections as a tool for assessing the global pollination crisis

Author

Bartomeus, I., Stavert, J. R., Ward, D., and Aguado, O.

Published

2019

3. Increasing crop richness and reducing field sizes provide higher yields to pollinator-dependent crops

Author

Magrach, A., Giménez-García, A., Allen-Perkins, A., Garibaldi, L.A., Bartomeus, I., Magrach, A., Giménez-García, A., Allen-Perkins, A., Garibaldi, L.A., and Bartomeus, I.

Abstract

Agricultural landscapes cover >60% of terrestrial landscapes. While biodiversity conservation and crop productivity have been seen as mutually exclusive options for a long time, recent research suggests that agricultural landscapes represent significant opportunities for biodiversity conservation outside of traditional protected areas. Here, we use a unique dataset that includes annual monitoring of 12,300 permanent 25-ha plots over two decades across Spain to assess how agricultural landscapes are changing over time. We focus particularly on landscape composition and configuration variables such as the diversity of crops grown within a landscape, average plot size or the cover of natural habitats and assess how changes to these variables affect the ability of agricultural landscapes to ensure high yields. We find potential synergistic strategies that are good for biodiversity conservation and can also lead to increasing crop yields. Specifically, we find that management practices that favour increasing biodiversity values such as maintaining small field sizes and high crop richness values at the landscape scale actually led to the greatest average yield values across 54 crops, 41% of which depend on pollinator activity for reproduction. Policy implications: While our analysis does not factor in economic costs and benefits, we show that synergy scenarios that are good for biodiversity conservation and crop productivity are possible, yet not as widespread as they could be. © 2022 The Authors. Journal of Applied Ecology © 2022 British Ecological Society.

Published

2023

4. Pollination supply models from a local to global scale

Author

Giménez-García, A., Allen-Perkins, A., Bartomeus, I., Balbi, S., Knapp, J.L., Hevia, V., Woodcock, B.A., Smagghe, G., Miñarro, M., Eeraerts, M., Colville, J.F., Hipólito, J., Cavigliasso, P., Nates-Parra, G., Herrera, J.M., Cusser, S., Simmons, B.I., Wolters, V., Jha, S., Freitas, B.M., Horgan, F.G., Artz, A.R., Sidhu, C.S., Otieno, M., Boreux, V., Biddinger, D.J., Klein, A.M., Joshi, N.K., Stewart, R.I.A., Albrecht, M., Nicholson, C.C., O'Reilly, A.D., Crowder, D.W., Burns, K.L.W., Nabaes Jodar, D.N., Garibaldi, L.A., Sutter, L., Dupont, Y.L., Dalsgaard, B., Da Encarnação Coutinho, J.G., Lázaro, A., Andersson, G.K.S., Raine, N.E., Krishnan, S., Dainese, M., Van Der Werf, W., Smith, H.G., Magrach, A., Giménez-García, A., Allen-Perkins, A., Bartomeus, I., Balbi, S., Knapp, J.L., Hevia, V., Woodcock, B.A., Smagghe, G., Miñarro, M., Eeraerts, M., Colville, J.F., Hipólito, J., Cavigliasso, P., Nates-Parra, G., Herrera, J.M., Cusser, S., Simmons, B.I., Wolters, V., Jha, S., Freitas, B.M., Horgan, F.G., Artz, A.R., Sidhu, C.S., Otieno, M., Boreux, V., Biddinger, D.J., Klein, A.M., Joshi, N.K., Stewart, R.I.A., Albrecht, M., Nicholson, C.C., O'Reilly, A.D., Crowder, D.W., Burns, K.L.W., Nabaes Jodar, D.N., Garibaldi, L.A., Sutter, L., Dupont, Y.L., Dalsgaard, B., Da Encarnação Coutinho, J.G., Lázaro, A., Andersson, G.K.S., Raine, N.E., Krishnan, S., Dainese, M., Van Der Werf, W., Smith, H.G., and Magrach, A.

Abstract

Ecological intensification has been embraced with great interest by the academic sector but is still rarely taken up by farmers because monitoring the state of different ecological functions is not straightforward. Modelling tools can represent a more accessible alternative of measuring ecological functions, which could help promote their use amongst farmers and other decision-makers. In the case of crop pollination, modelling has traditionally followed either a mechanistic or a data-driven approach. Mechanistic models simulate the habitat preferences and foraging behaviour of pollinators, while data-driven models associate georeferenced variables with real observations. Here, we test these two approaches to predict pollination supply and validate these predictions using data from a newly released global dataset on pollinator visitation rates to different crops. We use one of the most extensively used models for the mechanistic approach, while for the data-driven approach, we select from among a comprehensive set of state-of-The-Art machine-learning models. Moreover, we explore a mixed approach, where data-derived inputs, rather than expert assessment, inform the mechanistic model. We find that, at a global scale, machine-learning models work best, offering a rank correlation coefficient between predictions and observations of pollinator visitation rates of 0.56. In turn, the mechanistic model works moderately well at a global scale for wild bees other than bumblebees. Biomes characterized by temperate or Mediterranean forests show a better agreement between mechanistic model predictions and observations, probably due to more comprehensive ecological knowledge and therefore better parameterization of input variables for these biomes. This study highlights the challenges of transferring input variables across multiple biomes, as expected given the different composition of species in different biomes. Our results provide clear guidance on which pollination supply mode

Published

2023

5. Pollinator-flower interactions in gardens during the COVID-19 pandemic lockdown of 2020

Author

Ollerton, J, Trunschke, J, Havens, K, Landaverde-González, P, Keller, A, Gilpin, AM, Rech, AR, Baronio, GJ, Phillips, BJ, Mackin, C, Stanley, DA, Treanore, E, Baker, E, Rotheray, EL, Erickson, E, Fornoff, F, Brearley, FQ, Ballantyne, G, Iossa, G, Stone, GN, Bartomeus, I, Stockan, JA, Leguizamón, J, Prendergast, K, Rowley, L, Giovanetti, M, de Oliveira Bueno, R, Wesselingh, RA, Mallinger, R, Edmondson, S, Howard, SR, Leonhardt, SD, Rojas-Nossa, SV, Brett, M, Joaqui, T, Antoniazzi, R, Burton, VJ, Feng, HH, Tian, ZX, Xu, Q, Zhang, C, Shi, CL, Huang, SQ, Cole, LJ, Bendifallah, L, Ellis, EE, Hegland, SJ, Díaz, SS, Lander, T, Mayr, AV, Katzer, S, Dawson, R, Eeraerts, M, Armbruster, WS, Walton, B, Adjlane, N, Falk, S, Mata, L, Geiger, AG, Carvell, C, Wallace, C, Ratto, F, Barberis, M, Kahane, F, Connop, S, Stip, A, Sigrist, MR, Vereecken, NJ, Klein, AM, Baldock, KCR, Arnold, SEJ, Ollerton, J, Trunschke, J, Havens, K, Landaverde-González, P, Keller, A, Gilpin, AM, Rech, AR, Baronio, GJ, Phillips, BJ, Mackin, C, Stanley, DA, Treanore, E, Baker, E, Rotheray, EL, Erickson, E, Fornoff, F, Brearley, FQ, Ballantyne, G, Iossa, G, Stone, GN, Bartomeus, I, Stockan, JA, Leguizamón, J, Prendergast, K, Rowley, L, Giovanetti, M, de Oliveira Bueno, R, Wesselingh, RA, Mallinger, R, Edmondson, S, Howard, SR, Leonhardt, SD, Rojas-Nossa, SV, Brett, M, Joaqui, T, Antoniazzi, R, Burton, VJ, Feng, HH, Tian, ZX, Xu, Q, Zhang, C, Shi, CL, Huang, SQ, Cole, LJ, Bendifallah, L, Ellis, EE, Hegland, SJ, Díaz, SS, Lander, T, Mayr, AV, Katzer, S, Dawson, R, Eeraerts, M, Armbruster, WS, Walton, B, Adjlane, N, Falk, S, Mata, L, Geiger, AG, Carvell, C, Wallace, C, Ratto, F, Barberis, M, Kahane, F, Connop, S, Stip, A, Sigrist, MR, Vereecken, NJ, Klein, AM, Baldock, KCR, and Arnold, SEJ

Abstract

During the main COVID-19 global pandemic lockdown period of 2020 an impromptu set of pollination ecologists came together via social media and personal contacts to carry out standardised surveys of the flower visits and plants in gardens. The surveys involved 67 rural, suburban and urban gardens, of various sizes, ranging from 61.18° North in Norway to 37.96° South in Australia, resulting in a data set of 25,174 rows, with each row being a unique interaction record for that date/site/plant species, and comprising almost 47,000 visits to flowers, as well as records of flowers that were not visited by pollinators, for over 1,000 species and varieties belonging to more than 460 genera and 96 plant families. The more than 650 species of flower visitors belong to 12 orders of invertebrates and four of vertebrates. In this first publication from the project, we present a brief description of the data and make it freely available for any researchers to use in the future, the only restriction being that they cite this paper in the first instance. The data generated from these global surveys will provide scientific evidence to help us understand the role that private gardens (in urban, rural and suburban areas) can play in conserving insect pollinators and identify management actions to enhance their potential.

Published

2022

6. CropPol: A dynamic, open and global database on crop pollination

Author

Allen-Perkins, A, Magrach, A, Dainese, M, Garibaldi, LA, Kleijn, D, Rader, R, Reilly, JR, Winfree, R, Lundin, O, McGrady, CM, Brittain, C, Biddinger, DJ, Artz, DR, Elle, E, Hoffman, G, Ellis, JD, Daniels, J, Gibbs, J, Campbell, JW, Brokaw, J, Wilson, JK, Mason, K, Ward, KL, Gundersen, KB, Bobiwash, K, Gut, L, Rowe, LM, Boyle, NK, Williams, NM, Joshi, NK, Rothwell, N, Gillespie, RL, Isaacs, R, Fleischer, SJ, Peterson, SS, Rao, S, Pitts-Singer, TL, Fijen, T, Boreux, V, Rundlof, M, Viana, BF, Klein, A-M, Smith, HG, Bommarco, R, Carvalheiro, LG, Ricketts, TH, Ghazoul, J, Krishnan, S, Benjamin, FE, Loureiro, J, Castro, S, Raine, NE, de Groot, GA, Horgan, FG, Hipolito, J, Smagghe, G, Meeus, I, Eeraerts, M, Potts, SG, Kremen, C, Garcia, D, Minarro, M, Crowder, DW, Pisanty, G, Mandelik, Y, Vereecken, NJ, Leclercq, N, Weekers, T, Lindstrom, SAM, Stanley, DA, Zaragoza-Trello, C, Nicholson, CC, Scheper, J, Rad, C, Marks, EAN, Mota, L, Danforth, B, Park, M, Bezerra, ADM, Freitas, BM, Mallinger, RE, Oliveira da Silva, F, Willcox, B, Ramos, DL, da Silva e Silva, FD, Lazaro, A, Alomar, D, Gonzalez-Estevez, MA, Taki, H, Cariveau, DP, Garratt, MPD, Nabaes Jodar, DN, Stewart, RIA, Ariza, D, Pisman, M, Lichtenberg, EM, Schueepp, C, Herzog, F, Entling, MH, Dupont, YL, Michener, CD, Daily, GC, Ehrlich, PR, Burns, KLW, Vila, M, Robson, A, Howlett, B, Blechschmidt, L, Jauker, F, Schwarzbach, F, Nesper, M, Diekoetter, T, Wolters, V, Castro, H, Gaspar, H, Nault, BA, Badenhausser, I, Petersen, JD, Tscharntke, T, Bretagnolle, V, Willis Chan, DS, Chacoff, N, Andersson, GKS, Jha, S, Colville, JF, Veldtman, R, Coutinho, J, Bianchi, FJJA, Sutter, L, Albrecht, M, Jeanneret, P, Zou, Y, Averill, AL, Saez, A, Sciligo, AR, Vergara, CH, Bloom, EH, Oeller, E, Badano, EI, Loeb, GM, Grab, H, Ekroos, J, Gagic, V, Cunningham, SA, Astrom, J, Cavigliasso, P, Trillo, A, Classen, A, Mauchline, AL, Montero-Castano, A, Wilby, A, Woodcock, BA, Sidhu, CS, Steffan-Dewenter, I, Vogiatzakis, IN, Herrera, JM, Otieno, M, Gikungu, MW, Cusser, SJ, Nauss, T, Nilsson, L, Knapp, J, Ortega-Marcos, JJ, Gonzalez, JA, Osborne, JL, Blanche, R, Shaw, RF, Hevia, V, Stout, J, Arthur, AD, Blochtein, B, Szentgyorgyi, H, Li, J, Mayfield, MM, Woyciechowski, M, Nunes-Silva, P, Halinski de Oliveira, R, Henry, S, Simmons, BI, Dalsgaard, B, Hansen, K, Sritongchuay, T, O'Reilly, AD, Chamorro Garcia, FJ, Nates Parra, G, Magalhaes Pigozo, C, Bartomeus, I, Allen-Perkins, A, Magrach, A, Dainese, M, Garibaldi, LA, Kleijn, D, Rader, R, Reilly, JR, Winfree, R, Lundin, O, McGrady, CM, Brittain, C, Biddinger, DJ, Artz, DR, Elle, E, Hoffman, G, Ellis, JD, Daniels, J, Gibbs, J, Campbell, JW, Brokaw, J, Wilson, JK, Mason, K, Ward, KL, Gundersen, KB, Bobiwash, K, Gut, L, Rowe, LM, Boyle, NK, Williams, NM, Joshi, NK, Rothwell, N, Gillespie, RL, Isaacs, R, Fleischer, SJ, Peterson, SS, Rao, S, Pitts-Singer, TL, Fijen, T, Boreux, V, Rundlof, M, Viana, BF, Klein, A-M, Smith, HG, Bommarco, R, Carvalheiro, LG, Ricketts, TH, Ghazoul, J, Krishnan, S, Benjamin, FE, Loureiro, J, Castro, S, Raine, NE, de Groot, GA, Horgan, FG, Hipolito, J, Smagghe, G, Meeus, I, Eeraerts, M, Potts, SG, Kremen, C, Garcia, D, Minarro, M, Crowder, DW, Pisanty, G, Mandelik, Y, Vereecken, NJ, Leclercq, N, Weekers, T, Lindstrom, SAM, Stanley, DA, Zaragoza-Trello, C, Nicholson, CC, Scheper, J, Rad, C, Marks, EAN, Mota, L, Danforth, B, Park, M, Bezerra, ADM, Freitas, BM, Mallinger, RE, Oliveira da Silva, F, Willcox, B, Ramos, DL, da Silva e Silva, FD, Lazaro, A, Alomar, D, Gonzalez-Estevez, MA, Taki, H, Cariveau, DP, Garratt, MPD, Nabaes Jodar, DN, Stewart, RIA, Ariza, D, Pisman, M, Lichtenberg, EM, Schueepp, C, Herzog, F, Entling, MH, Dupont, YL, Michener, CD, Daily, GC, Ehrlich, PR, Burns, KLW, Vila, M, Robson, A, Howlett, B, Blechschmidt, L, Jauker, F, Schwarzbach, F, Nesper, M, Diekoetter, T, Wolters, V, Castro, H, Gaspar, H, Nault, BA, Badenhausser, I, Petersen, JD, Tscharntke, T, Bretagnolle, V, Willis Chan, DS, Chacoff, N, Andersson, GKS, Jha, S, Colville, JF, Veldtman, R, Coutinho, J, Bianchi, FJJA, Sutter, L, Albrecht, M, Jeanneret, P, Zou, Y, Averill, AL, Saez, A, Sciligo, AR, Vergara, CH, Bloom, EH, Oeller, E, Badano, EI, Loeb, GM, Grab, H, Ekroos, J, Gagic, V, Cunningham, SA, Astrom, J, Cavigliasso, P, Trillo, A, Classen, A, Mauchline, AL, Montero-Castano, A, Wilby, A, Woodcock, BA, Sidhu, CS, Steffan-Dewenter, I, Vogiatzakis, IN, Herrera, JM, Otieno, M, Gikungu, MW, Cusser, SJ, Nauss, T, Nilsson, L, Knapp, J, Ortega-Marcos, JJ, Gonzalez, JA, Osborne, JL, Blanche, R, Shaw, RF, Hevia, V, Stout, J, Arthur, AD, Blochtein, B, Szentgyorgyi, H, Li, J, Mayfield, MM, Woyciechowski, M, Nunes-Silva, P, Halinski de Oliveira, R, Henry, S, Simmons, BI, Dalsgaard, B, Hansen, K, Sritongchuay, T, O'Reilly, AD, Chamorro Garcia, FJ, Nates Parra, G, Magalhaes Pigozo, C, and Bartomeus, I

Abstract

Seventy five percent of the world's food crops benefit from insect pollination. Hence, there has been increased interest in how global change drivers impact this critical ecosystem service. Because standardized data on crop pollination are rarely available, we are limited in our capacity to understand the variation in pollination benefits to crop yield, as well as to anticipate changes in this service, develop predictions, and inform management actions. Here, we present CropPol, a dynamic, open, and global database on crop pollination. It contains measurements recorded from 202 crop studies, covering 3,394 field observations, 2,552 yield measurements (i.e., berry mass, number of fruits, and fruit density [kg/ha], among others), and 47,752 insect records from 48 commercial crops distributed around the globe. CropPol comprises 32 of the 87 leading global crops and commodities that are pollinator dependent. Malus domestica is the most represented crop (32 studies), followed by Brassica napus (22 studies), Vaccinium corymbosum (13 studies), and Citrullus lanatus (12 studies). The most abundant pollinator guilds recorded are honey bees (34.22% counts), bumblebees (19.19%), flies other than Syrphidae and Bombyliidae (13.18%), other wild bees (13.13%), beetles (10.97%), Syrphidae (4.87%), and Bombyliidae (0.05%). Locations comprise 34 countries distributed among Europe (76 studies), North America (60), Latin America and the Caribbean (29), Asia (20), Oceania (10), and Africa (7). Sampling spans three decades and is concentrated on 2001-2005 (21 studies), 2006-2010 (40), 2011-2015 (88), and 2016-2020 (50). This is the most comprehensive open global data set on measurements of crop flower visitors, crop pollinators and pollination to date, and we encourage researchers to add more datasets to this database in the future. This data set is released for non-commercial use only. Credits should be given to this paper (i.e., proper citation), and the products generated with this da

Published

2022

7. A critical analysis of the potential for EU Common Agricultural Policy measures to support wild pollinators on farmland

Author

Cole, L.J., Kleijn, D., Dicks , L.V., Stout, J.C., Potts, S.G., Albrecht, M., Balzan, M.V., Bartomeus, I., Bebeli, P.J., Bevk, D., Biesmeijer, J.C., Chlebo, R., Dautarte, A., Emmanouil, N., Hartfield, C., Holland, J.M., Holzschuh, A., Knoben, N.T.J., Kovacs-Hostyanszki, A., Mandelik, Y., Panou, H., Paxton, R.J., Petanidou, T., de Carvalho, M.A.A.P., Rundlof, M., Sarthou, J.P., Stavrinides, M.C., Suso, M.J., Szentgyorgyi, H., Vaissiere, B.E., Varnava, A., Vila, M., Zemeckis, R., and Scheper, J.

Abstract

Agricultural intensification and associated loss of high-quality habitats are key drivers of insect pollinator declines. With the aim of decreasing the environmental impact of agriculture, the 2014 EU Common Agricultural Policy (CAP) defined a set of habitat and landscape features (Ecological Focus Areas: EFAs) farmers could select from as a requirement to receive basic farm payments. To inform the post-2020 CAP, we performed a European-scale evaluation to determine how different EFA options vary in their potential to support insect pollinators under standard and pollinator-friendly management, as well as the extent of farmer uptake.A structured Delphi elicitation process engaged 22 experts from 18 European countries to evaluate EFAs options. By considering life cycle requirements of key pollinating taxa (i.e. bumble bees, solitary bees and hoverflies), each option was evaluated for its potential to provide forage, bee nesting sites and hoverfly larval resources.EFA options varied substantially in the resources they were perceived to provide and their effectiveness varied geographically and temporally. For example, field margins provide relatively good forage throughout the season in Southern and Eastern Europe but lacked early-season forage in Northern and Western Europe. Under standard management, no single EFA option achieved high scores across resource categories and a scarcity of late season forage was perceived.Experts identified substantial opportunities to improve habitat quality by adopting pollinator-friendly management. Improving management alone was, however, unlikely to ensure that all pollinator resource requirements were met. Our analyses suggest that a combination of poor management, differences in the inherent pollinator habitat quality and uptake bias towards catch crops and nitrogen-fixing crops severely limit the potential of EFAs to support pollinators in European agricultural landscapes.Policy Implications. To conserve pollinators and help protect pollination services, our expert elicitation highlights the need to create a variety of interconnected, well-managed habitats that complement each other in the resources they offer. To achieve this the Common Agricultural Policy post-2020 should take a holistic view to implementation that integrates the different delivery vehicles aimed at protecting biodiversity (e.g. enhanced conditionality, eco-schemes and agri-environment and climate measures). To improve habitat quality we recommend an effective monitoring framework with target-orientated indicators and to facilitate the spatial targeting of options collaboration between land managers should be incentivised.

Published

2020

8. Identifying 'Useful' Fitness Models: Balancing the Benefits of Added Complexity with Realistic Data Requirements in Models of Individual Plant Fitness

Author

Martyn, TE, Stouffer, DB, Godoy, O, Bartomeus, I, Pastore, AI, Mayfield, MM, Martyn, TE, Stouffer, DB, Godoy, O, Bartomeus, I, Pastore, AI, and Mayfield, MM

Abstract

Direct species interactions are commonly included in individual fitness models used for coexistence and local diversity modeling. Though widely considered important for such models, direct interactions alone are often insufficient for accurately predicting fitness, coexistence, or diversity outcomes. Incorporating higher-order interactions (HOIs) can lead to more accurate individual fitness models but also adds many model terms, which can quickly result in model overfitting. We explore approaches for balancing the trade-off between tractability and model accuracy that occurs when HOIs are added to individual fitness models. To do this, we compare models parameterized with data from annual plant communities in Australia and Spain, varying in the extent of information included about the focal and neighbor species. The best-performing models for both data sets were those that grouped neighbors based on origin status and life form, a grouping approach that reduced the number of model parameters substantially while retaining important ecological information about direct interactions and HOIs. Results suggest that the specific identity of focal or neighbor species is not necessary for building well-performing fitness models that include HOIs. In fact, grouping neighbors by even basic functional information seems sufficient to maximize model accuracy, an important outcome for the practical use of HOI-inclusive fitness models.

Published

2021

9. Niche complementarity among pollinators increases community-level plant reproductive success

Author

Magrach, A., Molina, F. P., Bartomeus, I., Magrach, A., Molina, F. P., and Bartomeus, I.

Abstract

Declines in pollinator diversity and abundance have been reported across different regions, with implications for the reproductive success of plant species. However, research has focused primarily on pairwise plant-pollinator interactions, largely overlooking community-level dynamics. Here, we present one of the first efforts linking pollinator visitation to plant reproduction from a community-wide perspective using a well-replicated dataset encompassing 16 well-resolved plant-pollinator networks and data on reproductive success for 19 plant species from Mediterranean shrub ecosystems. We find that models including simple visitation metrics are sufficient to explain the variability in reproductive success observed. However, insights into the mechanisms through which differences in pollinator diversity translate into changes in reproductive success require additional information on network structure. Specifically, we find a positive effect of increasing niche complementarity between pollinators on plant reproductive success. This shows that maintaining communities with a diversity of species but also of functions is paramount to preserving natural ecosystems.

Published

2020

10. A global synthesis reveals biodiversity-mediated benefits for crop production

Author

Dainese, M., Martin, E. A., Aizen, Marcelo A., Albrecht, M., Bartomeus, I., Bommarco, R., Carvalheiro, L. G., Chaplin-Kramer, R., Gagic, V., Garibaldi, Lucas A., Ghazoul, J., Grab, H., Jonsson, M., Karp, D. S., Kennedy, Cristina M., Kleijn, D., Kremen, C., Landis, D. A., Letourneau, D. K., Marini, Lorenzo, Poveda, K., Rader, R., Smith, H. G., Tscharntke, T., Andersson, G. K. S., Badenhausser, I., Baensch, S., Bezerra, A. D. M., Bianchi, F. J. J. A., Boreux, V., Bretagnolle, V., Caballero-López, Berta, Cavigliasso, P., Cetkovic, Aleksandar, Chacoff, Natacha P., Classen, A., Cusser, S., Da Silva E Silva, F. D., Arjen De Groot, G., Dudenhöffer, J. H., Ekroos, J., Fijen, T., Franck, P., Freitas, B. M., Garratt, M. P. D., Gratton, C., Hipólito, J., Holzschuh, A., Hunt, L., Zaragoza-Trello, C., Dainese, M., Martin, E. A., Aizen, Marcelo A., Albrecht, M., Bartomeus, I., Bommarco, R., Carvalheiro, L. G., Chaplin-Kramer, R., Gagic, V., Garibaldi, Lucas A., Ghazoul, J., Grab, H., Jonsson, M., Karp, D. S., Kennedy, Cristina M., Kleijn, D., Kremen, C., Landis, D. A., Letourneau, D. K., Marini, Lorenzo, Poveda, K., Rader, R., Smith, H. G., Tscharntke, T., Andersson, G. K. S., Badenhausser, I., Baensch, S., Bezerra, A. D. M., Bianchi, F. J. J. A., Boreux, V., Bretagnolle, V., Caballero-López, Berta, Cavigliasso, P., Cetkovic, Aleksandar, Chacoff, Natacha P., Classen, A., Cusser, S., Da Silva E Silva, F. D., Arjen De Groot, G., Dudenhöffer, J. H., Ekroos, J., Fijen, T., Franck, P., Freitas, B. M., Garratt, M. P. D., Gratton, C., Hipólito, J., Holzschuh, A., Hunt, L., and Zaragoza-Trello, C.

Abstract

Human land use threatens global biodiversity and compromises multiple ecosystem functions critical to food production. Whether crop yield-related ecosystem services can be maintained by a few dominant species or rely on high richness remains unclear. Using a global database from 89 studies (with 1475 locations), we partition the relative importance of species richness, abundance, and dominance for pollination; biological pest control; and final yields in the context of ongoing land-use change. Pollinator and enemy richness directly supported ecosystem services in addition to and independent of abundance and dominance. Up to 50% of the negative effects of landscape simplification on ecosystem services was due to richness losses of service-providing organisms, with negative consequences for crop yields. Maintaining the biodiversity of ecosystem service providers is therefore vital to sustain the flow of key agroecosystem benefits to society.

Published

2019

11. Historical collections as a tool for assessing the global pollination crisis

Author

Bartomeus, I., primary, Stavert, J. R., additional, Ward, D., additional, and Aguado, O., additional

Published

2018

12. Peer Review #1 of "Ranking of critical species to preserve the functionality of mutualistic networks using the k-core decomposition (v0.1)"

Author

Bartomeus, I, additional

Published

2017

13. Non-bee insects are important contributors to global crop pollination

Author

De O Pereira, N, Lindström, SAM, Winfree, R, Garrat, MPD, Gross, SL, Bartomeus, I, Monteiro, VM, Howlett, BG, Herzog, F, Szentgyörgyi, H, Stanley, DA, Pattemore, DE, Cunningham, SA, Gemmill-Herren, B, Scheper, J, Freitas, BM, Foully, B, Vergara, CH, Krishnan, S, Klein, A-M, Ghazoul, J, Brittain, C, Potts, SG, Mandelik, Y, Smith, HG, Stout, JC, Jauker, F, Kleijn, D, Andersson, GKS, Viana, BF, Woyciechowski, M, Hipólito, J, Schüepp, Christof, Chacoff, NP, Reemer, M, Taki, H, Bommarco, R, Nilsson, L, Garibaldi, LA, Rader, R, Griffin, Carvalheiro, LG, Arthur, AD, Herbertsson, L, Lemos, CQ, Jaggar, S, Entling, MH, Sheffield, CS, Mayfield, MM, Pisanty, G, and Rundlöf, M

Subjects

590 Animals (Zoology), 570 Life sciences, biology, 580 Plants (Botany)

Abstract

Many of the world’s crops are pollinated by insects, and bees are often assumed to be the most important pollinators. To our knowledge, our study is the first quantitative evaluation of the relative contribution of non-bee pollinators to global pollinator-dependent crops. Across 39 studies we show that insects other than bees are efficient pollinators providing 39% of visits to crop flowers. A shift in perspective from a bee-only focus is needed for assessmentsofcroppollinatorb iodiversity and the economic value of pollination. These studies should also consider the services provided by other types of insects, such as flies, wasps, beetles, and butterflies—important pollinators that a re currently overlooked.

Published

2015

14. Functional identity and diversity of animals predict ecosystem functioning better than species-based indices

Author

Gagic, V., Bartomeus, I., Jonsson, T., Taylor, A., Winqvist, C., Fischer, C., Slade, Eleanor M., Steffan-Dewenter, I., Emmerson, M., Potts, S.G., Tscharntke, T., Weisser, W., Bommarco, R., Gagic, V., Bartomeus, I., Jonsson, T., Taylor, A., Winqvist, C., Fischer, C., Slade, Eleanor M., Steffan-Dewenter, I., Emmerson, M., Potts, S.G., Tscharntke, T., Weisser, W., and Bommarco, R.

Abstract

Drastic biodiversity declines have raised concerns about the deterioration of ecosystem functions and have motivated much recent research on the relationship between species diversity and ecosystem functioning. A functional trait framework has been proposed to improve the mechanistic understanding of this relationship, but this has rarely been tested for organisms other than plants. We analysed eight datasets, including five animal groups, to examine how well a trait-based approach, compared with a more traditional taxonomic approach, predicts seven ecosystem functions below- and above-ground. Trait-based indices consistently provided greater explanatory power than species richness or abundance. The frequency distributions of single or multiple traits in the community were the best predictors of ecosystem functioning. This implies that the ecosystem functions we investigated were underpinned by the combination of trait identities (i.e. single-trait indices) and trait complementarity (i.e. multi-trait indices) in the communities. Our study provides new insights into the general mechanisms that link biodiversity to ecosystem functioning in natural animal communities and suggests that the observed responses were due to the identity and dominance patterns of the trait composition rather than the number or abundance of species per se.

Published

2015

15. Peer Review #1 of "Honey bee success predicted by landscape composition in Ohio, USA (v0.1)"

Author

Bartomeus, I, additional

Published

2015

16. Wild Pollinators Enhance Fruit Set of Crops Regardless of Honey Bee Abundance

Author

Garibaldi, L. A., primary, Steffan-Dewenter, I., additional, Winfree, R., additional, Aizen, M. A., additional, Bommarco, R., additional, Cunningham, S. A., additional, Kremen, C., additional, Carvalheiro, L. G., additional, Harder, L. D., additional, Afik, O., additional, Bartomeus, I., additional, Benjamin, F., additional, Boreux, V., additional, Cariveau, D., additional, Chacoff, N. P., additional, Dudenhoffer, J. H., additional, Freitas, B. M., additional, Ghazoul, J., additional, Greenleaf, S., additional, Hipolito, J., additional, Holzschuh, A., additional, Howlett, B., additional, Isaacs, R., additional, Javorek, S. K., additional, Kennedy, C. M., additional, Krewenka, K. M., additional, Krishnan, S., additional, Mandelik, Y., additional, Mayfield, M. M., additional, Motzke, I., additional, Munyuli, T., additional, Nault, B. A., additional, Otieno, M., additional, Petersen, J., additional, Pisanty, G., additional, Potts, S. G., additional, Rader, R., additional, Ricketts, T. H., additional, Rundlof, M., additional, Seymour, C. L., additional, Schuepp, C., additional, Szentgyorgyi, H., additional, Taki, H., additional, Tscharntke, T., additional, Vergara, C. H., additional, Viana, B. F., additional, Wanger, T. C., additional, Westphal, C., additional, Williams, N., additional, and Klein, A. M., additional

Published

2013

17. Vegetation Response after Removal of the Invasive Carpobrotus Hybrid Complex in Andalucia, Spain

Author

Andreu, J., primary, Manzano-Piedras, E., additional, Bartomeus, I., additional, Dana, E. D., additional, and Vila, M., additional

Published

2010

18. Delivery of crop pollination services is an insufficient argument for wild pollinator conservation

Author

Kleijn, D, Winfree, R, Bartomeus, I, Carvalheiro, LG, Henry, M, Rufus Isaacs, R, Klein, AM, Kremen, C, Rader, R, Ricketts, TH, Williams, NM, Adamson, NL, Ascher, JS, Báldi, A, Batáry, P, Benjamin, F, Biesmeijer, JC, Blitzer, EJ, Bommarco, R, Brand, MR, Bretagnolle, V, Button, L, Cariveau, DP, Chifflet, R, Colville, JF, Danforth, BN, Elle, E, Garratt, MPD, Herzog, F, Holzschuh, A, Howlett, BG, Jauker, F, Jha, S, Knop, Eva, Krewenka, KM, Le Féon, V, Mandelik, Y, May, EA, Park, MG, Pisanty, G, Reemer, M, Riedinger, V, Rollin, O, Rundlöf, M, Sardiñas, HS, Scheper, J, Sciligo, AR, Smith, HG, Steffan-Dewenter, I, Thorp, T, Tscharntke, T, Verhulst, J, Viana, BF, Vaissière, BE, Veldtman, R, Westphal, C, Potts, SG, and M'Gonigle, Leithen K

Subjects

2. Zero hunger, fungi, food and beverages, 570 Life sciences, biology, 15. Life on land

Abstract

There is compelling evidence that more diverse ecosystems deliver greater benefits to people, and these ecosystem services have become a key argument for biodiversity conservation. However, it is unclear how much biodiversity is needed to deliver ecosystem services in a cost-effective way. Here we show that, while the contribution of wild bees to crop production is significant, service delivery is restricted to a limited subset of all known bee species. Across crops, years and biogeographical regions, crop-visiting wild bee communities are dominated by a small number of common species, and threatened species are rarely observed on crops. Dominant crop pollinators persist under agricultural expansion and many are easily enhanced by simple conservation measures, suggesting that cost-effective management strategies to promote crop pollination should target a different set of species than management strategies to promote threatened bees. Conserving the biological diversity of bees therefore requires more than just ecosystem-service-based arguments.

19. The need for coordinated transdisciplinary research infrastructures for pollinator conservation and crop pollination resilience

Author

Bartomeus, I and Dicks, LV

Subjects

2. Zero hunger, monitoring, agroecosystems, 13. Climate action, bees, 15. Life on land, ecosystem services, global change, biodiversity

20. A common framework for identifying linkage rules across different types of interactions

Author

Bartomeus, I, Gravel, D, Tylianakis, JM, Aizen, MA, Dickie, IA, Bernard-Verdier, M, and Poisot, T

Published

2016

21. Working landscapes need at least 20% native habitat

Author

Dulce Sol Gómez Carella, Lynn V. Dicks, Lisa A. Schulte, Esteban G. Jobbágy, Harvey Locke, Erle C. Ellis, Marcelo N. Kuperman, Chao-Dong Zhu, Sandra Díaz, Camilo Bagnato, Fernando E. Miguez, Alice C. Hughes, Facundo José Oddi, Claire Kremen, Guillermo Abramson, Claudia A. Huaylla, Michael C. Orr, Zia Mehrabi, Matías Guillermo Goldenberg, Peter Bridgewater, Ignasi Bartomeus, Lucas Alejandro Garibaldi, Fernanda Santibáñez, Garibaldi, LA [0000-0003-0725-4049], Bartomeus, I [0000-0001-7893-4389], Schulte, LA [0000-0003-4433-5008], Bridgewater, P [0000-0001-7972-5386], Díaz, S [0000-0003-0012-4612], Dicks, LV [0000-0002-8304-4468], Ellis, EC [0000-0002-2006-3362], Mehrabi, Z [0000-0001-9574-0420], and Apollo - University of Cambridge Repository

Subjects

0106 biological sciences, agroecology, NATURE'S CONTRIBUTIONS, restoration, Library science, Legislation, Landscape conservation, LANDSCAPE CONSERVATION, QH1-199.5, 010603 evolutionary biology, 01 natural sciences, purl.org/becyt/ford/1 [https], native habitat, AGROECOLOGY, Biodiversidad y Conservación, Political science, nature&apos, Pict (programming language), NATIVE HABITAT, working landscapes, Agricultura, Ciencias Forestales y Pesca, purl.org/becyt/ford/1.6 [https], Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, computer.programming_language, RESTORATION, Ecology, 010604 marine biology & hydrobiology, s contributions, FOOD SECURITY, General. Including nature conservation, geographical distribution, food security, Ecología, landscape conservation, WORKING LANDSCAPES, Research council, nature's contributions, computer

Abstract

International agreements aim to conserve 17% of Earth's land area by 2020 but include no area-based conservation targets within the working landscapes that support human needs through farming, ranching, and forestry. Through a review of country-level legislation, we found that just 38% of countries have minimum area requirements for conserving native habitats within working landscapes. We argue for increasing native habitats to at least 20% of working landscape area where it is below this minimum. Such target has benefits for food security, nature's contributions to people, and the connectivity and effectiveness of protected area networks in biomes in which protected areas are underrepresented. We also argue for maintaining native habitat at higher levels where it currently exceeds the 20% minimum, and performed a literature review that shows that even more than 50% native habitat restoration is needed in particular landscapes. The post-2020 Global Biodiversity Framework is an opportune moment to include a minimum habitat restoration target for working landscapes that contributes to, but does not compete with, initiatives for expanding protected areas, the UN Decade on Ecosystem Restoration (2021–2030) and the UN Sustainable Development Goals. Fil: Garibaldi, Lucas Alejandro. Universidad Nacional de Río Negro. Sede Andina. Instituto de Investigaciones en Recursos Naturales, Agroecología y Desarrollo Rural; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Patagonia Norte; Argentina Fil: Oddi, Facundo José. Universidad Nacional de Río Negro. Sede Andina. Instituto de Investigaciones en Recursos Naturales, Agroecología y Desarrollo Rural; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Patagonia Norte; Argentina Fil: Miguez, Fernando E.. University of Iowa; Estados Unidos Fil: Bartomeus, Ignasi. Consejo Superior de Investigaciones Cientificas. Instituto de Recursos Naturales y Agrobiología de Sevilla; España Fil: Orr, Michael C.. Chinese Academy of Sciences; República de China Fil: Jobbagy Gampel, Esteban Gabriel. Instituto Sudamericano de Estudios de Resiliencia y Sostenibilidad; Uruguay. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - San Luis. Instituto de Matemática Aplicada de San Luis "Prof. Ezio Marchi". Universidad Nacional de San Luis. Facultad de Ciencias Físico, Matemáticas y Naturales. Instituto de Matemática Aplicada de San Luis "Prof. Ezio Marchi"; Argentina Fil: Kremen, Claire. University of British Columbia; Canadá Fil: Schulte, Lisa A.. University of Iowa; Estados Unidos Fil: Hughes, Alice C.. Chinese Academy of Sciences; República de China Fil: Bagnato, Camilo Ernesto. Universidad Nacional de Río Negro. Sede Andina. Instituto de Investigaciones en Recursos Naturales, Agroecología y Desarrollo Rural; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Patagonia Norte; Argentina Fil: Abramson, Guillermo. Comisión Nacional de Energía Atómica. Centro Atómico Bariloche; Argentina. Comisión Nacional de Energía Atómica. Gerencia del Área de Energía Nuclear. Instituto Balseiro; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Patagonia Norte; Argentina Fil: Bridgewater, Peter. Utrecht University; Países Bajos. University of Canberra; Australia Fil: Gómez Carella, Dulce Sol. Universidad Nacional de Río Negro. Sede Andina. Instituto de Investigaciones en Recursos Naturales, Agroecología y Desarrollo Rural; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Patagonia Norte; Argentina Fil: Díaz, Sandra Myrna. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Córdoba. Instituto Multidisciplinario de Biología Vegetal. Universidad Nacional de Córdoba. Facultad de Ciencias Exactas Físicas y Naturales. Instituto Multidisciplinario de Biología Vegetal; Argentina Fil: Dicks, Lynn. University of Cambridge; Reino Unido. University of East Anglia; Reino Unido Fil: Ellis, Erle C.. University of Maryland; Estados Unidos Fil: Goldenberg, Matías Guillermo. Universidad Nacional de Río Negro. Sede Andina. Instituto de Investigaciones en Recursos Naturales, Agroecología y Desarrollo Rural; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Patagonia Norte; Argentina Fil: Huaylla, Claudia Alejandra. Universidad Nacional de Río Negro. Sede Andina. Instituto de Investigaciones en Recursos Naturales, Agroecología y Desarrollo Rural; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Patagonia Norte; Argentina Fil: Kuperman, Marcelo Nestor. Comisión Nacional de Energía Atómica. Centro Atómico Bariloche; Argentina. Comisión Nacional de Energía Atómica. Gerencia del Área de Energía Nuclear. Instituto Balseiro; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Patagonia Norte; Argentina Fil: Locke, Harvey. Yellowstone to Yukon Conservation Initiative; Canadá Fil: Mehrabi, Zia. University of British Columbia; Canadá Fil: Santibañez Ossa, Fernanda Andrea. Universidad Nacional de Río Negro. Sede Andina. Instituto de Investigaciones en Recursos Naturales, Agroecología y Desarrollo Rural; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - Patagonia Norte; Argentina Fil: Zhu, Chao Dong. Chinese Academy of Sciences; República de China

Published

2020

22. The need for coordinated transdisciplinary research infrastructures for pollinator conservation and crop pollination resilience

Author

Ignasi Bartomeus, Lynn V. Dicks, Bartomeus, I [0000-0001-7893-4389], and Apollo - University of Cambridge Repository

Subjects

agroecosystems, 010504 meteorology & atmospheric sciences, Pollination, media_common.quotation_subject, 010501 environmental sciences, 01 natural sciences, Ecosystem services, Pollinator, Citizen science, Resilience (network), Environmental planning, global change, 0105 earth and related environmental sciences, General Environmental Science, media_common, biodiversity, 2. Zero hunger, Renewable Energy, Sustainability and the Environment, business.industry, Public Health, Environmental and Occupational Health, 15. Life on land, Pollinator decline, monitoring, 13. Climate action, Agriculture, Service (economics), Business, bees, ecosystem services

Abstract

There is a growing concern about the status and trends of animal pollinators worldwide. Pollinators provide a key service to both wild plants and crops by mediating their reproduction, so pollinator conservation is of fundamental importance to conservation and to food production. Understanding of the extent of pollinator declines is constrained by the paucity of accessible data, which leads to geographically- and taxonomically-biased assessments. In addition, land conversion to agriculture and intensive agricultural management are two of the main threats to pollinators. This is paradoxical, as crop production depends on pollinators to maximize productivity. There is a need to reconcile conservation and ecosystem service provision in agroecosystems. These challenges require coordinated transdisciplinary research infrastructures. Specifically, we need better research infrastructures to (i) describe pollinator decline patterns worldwide, (ii) monitor current pollinator trends, and (iii) understand how to enhance pollinator numbers and pollination in agroecosystems. This can be achieved, first, by redoubling the efforts to make historical data on species occurrences, interactions and traits openly available and easy to integrate across databases. Second, by empowering citizen science to monitor key pollinator species in a coordinated way and standardizing, consolidating and integrating long term collection protocols both in natural and agricultural areas. Finally, there is a need to develop multi-actor, localised research infrastructures allowing integration of social, economic and ecological approaches in agriculture. We illustrate how decentralized infrastructures can accelerate the process of co-producing research and integrating data collection across scientists, managers, members of the public, farmers and disciplines. The time is ripe to harness the power of coordinated research infrastructures to understand and mitigate pollinator declines.

Published

2019

23. A global synthesis reveals biodiversity-mediated benefits for crop production

Author

Dainese, M, Martin, EA, Aizen, MA, Albrecht, M, Bartomeus, I, Bommarco, R, Carvalheiro, LG, Chaplin-Kramer, R, Gagic, V, Garibaldi, LA, Ghazoul, J, Grab, H, Jonsson, M, Karp, DS, Kennedy, CM, Kleijn, D, Kremen, C, Landis, DA, Letourneau, DK, Marini, L, Poveda, K, Rader, R, Smith, HG, Tscharntke, T, Andersson, GKS, Badenhausser, I, Baensch, S, Bezerra, ADM, Bianchi, FJJA, Boreux, V, Bretagnolle, V, Caballero-Lopez, B, Cavigliasso, P, Ćetković, A, Chacoff, NP, Classen, A, Cusser, S, Da Silva E Silva, FD, de Groot, GA, Dudenhöffer, JH, Ekroos, J, Fijen, T, Franck, P, Freitas, BM, Garratt, MPD, Gratton, C, Hipólito, J, Holzschuh, A, Hunt, L, Iverson, AL, Jha, S, Keasar, T, Kim, TN, Kishinevsky, M, Klatt, BK, Klein, AM, Krewenka, KM, Krishnan, Smitha, Larsen, AE, Lavigne, C, Liere, H, Maas, B, Mallinger, RE, Pachon, EM, Martínez-Salinas, A, Meehan, TD, Mitchell, MGE, Molina, GAR, Nesper, M, Nilsson, L, O'Rourke, ME, Peters, MK, Plećaš, M, Potts, SG, Ramos, DDL, Rosenheim, JA, Rundlöf, M, Rusch, A, Sáez, A, Scheper, J, Schleuning, M, Schmack, JM, Sciligo, AR, Seymour, Colleen, Stanley, DA, Stewart, R, Stout, JC, Sutter, L, Takada, MB, Taki, H, Tamburini, G, Tschumi, M, Viana, BF, Westphal, C, Willcox, BK, Wratten, SD, Yoshioka, A, Zaragoza-Trello, C, Zhang, Wei, Zou, Yi, and Steffan-Dewenter, I

24. Loss of pollinator diversity consistently reduces reproductive success for wild and cultivated plants.

Author

Artamendi M, Martin PA, Bartomeus I, and Magrach A

Abstract

Pollination is a crucial ecosystem service, yet pollinator species diversity is declining as a result of factors such as climate change, habitat loss and agricultural intensification. While previous studies have often examined the extreme scenario of complete pollinator removal, showing negative impacts on plant reproductive success, we take a more realistic approach by focusing on the effects of decreasing pollinator diversity. Our global meta-analysis reveals a notable negative impact of reduced pollinator species diversity on plant reproductive success measures, such as seed set, fruit set and fruit weight. Notably, this effect varies across plant families, impacting both self-incompatible and self-compatible species. We also find that wild plant species suffer more than cultivated ones. Furthermore, the loss of invertebrate, nocturnal and wild pollinators has a more substantial impact than the loss of vertebrate, diurnal or managed pollinators. Overall, our findings consistently underscore the positive role of biodiversity in maintaining ecosystem functioning, highlighting the urgency of mitigating factors that lead to the decline in pollinator species diversity., Competing Interests: Competing interests: The authors declare no competing interests., (© 2024. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2024

25. Pollinator-assisted plant phenotyping, selection, and breeding for crop resilience to abiotic stresses.

Author

Pérez-Alfocea F, Borghi M, Guerrero JJ, Jiménez AR, Jiménez-Gómez JM, Fernie AR, and Bartomeus I

Subjects

Animals, Genotype, Pollination physiology, Crops, Agricultural genetics, Crops, Agricultural physiology, Phenotype, Plant Breeding methods, Stress, Physiological, Flowers physiology, Flowers genetics

Abstract

Food security is threatened by climate change, with heat and drought being the main stresses affecting crop physiology and ecosystem services, such as plant-pollinator interactions. We hypothesize that tracking and ranking pollinators' preferences for flowers under environmental pressure could be used as a marker of plant quality for agricultural breeding to increase crop stress tolerance. Despite increasing relevance of flowers as the most stress sensitive organs, phenotyping platforms aim at identifying traits of resilience by assessing the plant physiological status through remote sensing-assisted vegetative indexes, but find strong bottlenecks in quantifying flower traits and in accurate genotype-to-phenotype prediction. However, as the transport of photoassimilates from leaves (sources) to flowers (sinks) is reduced in low-resilient plants, flowers are better indicators than leaves of plant well-being. Indeed, the chemical composition and amount of pollen and nectar that flowers produce, which ultimately serve as food resources for pollinators, change in response to environmental cues. Therefore, pollinators' preferences could be used as a measure of functional source-to-sink relationships for breeding decisions. To achieve this challenging goal, we propose to develop a pollinator-assisted phenotyping and selection platform for automated quantification of Genotype × Environment × Pollinator interactions through an insect geo-positioning system. Pollinator-assisted selection can be validated by metabolic, transcriptomic, and ionomic traits, and mapping of candidate genes, linking floral and leaf traits, pollinator preferences, plant resilience, and crop productivity. This radical new approach can change the current paradigm of plant phenotyping and find new paths for crop redomestication and breeding assisted by ecological decisions., (© 2024 The Authors. The Plant Journal published by Society for Experimental Biology and John Wiley & Sons Ltd.)

Published

2024

26. Reassessing science communication for effective farmland biodiversity conservation.

Author

Velado-Alonso E, Kleijn D, and Bartomeus I

Subjects

Communication, Farms, Biodiversity, Conservation of Natural Resources methods, Agriculture methods

Abstract

Integrating biodiversity conservation into agriculture is a pressing challenge promoted by conservationists. Although biodiversity can also provide important benefits to farmers, the adoption of biodiversity-enhancing measures is lagging behind the scientific evidence. This may partially be related to the way scientists position themselves. If scientists do not convincingly communicate about the implications of their evidence, other interested stakeholders will drive the conversations. To increase societal impact, scientists must understand the complex communication environment and take an informed and strategic position. We describe the prevailing conservation and farming narratives, highlighting how the term 'biodiversity' can be used to start dialogues between parties with conflicting demands and exemplifying how scientists can build effective narratives., Competing Interests: Declaration of interests No interests are declared., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

27. Multitrophic Higher-Order Interactions Modulate Species Persistence.

Author

Buche L, Bartomeus I, and Godoy O

Subjects

Pollination, Plants

Abstract

AbstractEcologists increasingly recognize that interactions between two species can be affected by the density of a third species. How these higher-order interactions (HOIs) affect species persistence remains poorly understood. To explore the effect of HOIs stemming from multiple trophic layers on a plant community composition, we experimentally built a mesocosm with three plants and three pollinator species arranged in a fully nested and modified network structure. We estimated pairwise interactions among plants and between plants and pollinators, as well as HOIs initiated by a plant or a pollinator affecting plant species pairs. Using a structuralist approach, we evaluated the consequences of the statistically supported HOIs on the persistence probability of each of the three competing plant species and their combinations. HOIs substantially redistribute the strength and sign of pairwise interactions between plant species, promoting the opportunities for multispecies communities to persist compared with a non-HOI scenario. However, the physical elimination of a plant-pollinator link in the modified network structure promotes changes in per capita pairwise interactions and HOIs, resulting in a single-species community. Our study provides empirical evidence of the joint importance of HOIs and network structure in determining species persistence within diverse communities.

Published

2024

28. Interaction network structure explains species' temporal persistence in empirical plant-pollinator communities.

Author

Domínguez-Garcia V, Molina FP, Godoy O, and Bartomeus I

Subjects

Plants, Symbiosis, Pollination, Ecosystem

Abstract

Despite clear evidence that some pollinator populations are declining, our ability to predict pollinator communities prone to collapse or species at risk of local extinction is remarkably poor. Here, we develop a model grounded in the structuralist approach that allows us to draw sound predictions regarding the temporal persistence of species in mutualistic networks. Using high-resolution data from a six-year study following 12 independent plant-pollinator communities, we confirm that pollinator species with more persistent populations in the field are theoretically predicted to tolerate a larger range of environmental changes. Persistent communities are not necessarily more diverse, but are generally located in larger habitat patches, and present a distinctive combination of generalist and specialist species resulting in a more nested structure, as predicted by previous theoretical work. Hence, pollinator interactions directly inform about their ability to persist, opening the door to use theoretically informed models to predict species' fate within the ongoing global change., (© 2024. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2024

29. Brain size predicts bees' tolerance to urban environments.

Author

Lanuza JB, Collado MÁ, Sayol F, Sol D, and Bartomeus I

Subjects

Animals, Bees, Organ Size, Insecta, Agriculture, Pollination, Ecosystem, Forests

Abstract

The rapid conversion of natural habitats to anthropogenic landscapes is threatening insect pollinators worldwide, raising concern regarding the negative consequences on their fundamental role as plant pollinators. However, not all pollinators are negatively affected by habitat conversion, as certain species find appropriate resources in anthropogenic landscapes to persist and proliferate. The reason why some species tolerate anthropogenic environments while most find them inhospitable remains poorly understood. The cognitive buffer hypothesis, widely supported in vertebrates but untested in insects, offers a potential explanation. This theory suggests that species with larger brains have enhanced behavioural plasticity, enabling them to confront and adapt to novel challenges. To investigate this hypothesis in insects, we measured brain size for 89 bee species, and evaluated their association with the degree of habitat occupancy. Our analyses revealed that bee species mainly found in urban habitats had larger brains relative to their body size than those that tend to occur in forested or agricultural habitats. Additionally, urban bees exhibited larger body sizes and, consequently, larger absolute brain sizes. Our results provide the first empirical support for the cognitive buffer hypothesis in invertebrates, suggesting that a large brain in bees could confer behavioural advantages to tolerate urban environments.

Published

2023

30. Structural asymmetry in biotic interactions as a tool to understand and predict ecological persistence.

Author

Allen-Perkins A, García-Callejas D, Bartomeus I, and Godoy O

Subjects

Population Dynamics, Ecosystem

Abstract

A universal feature of ecological systems is that species do not interact with others with the same sign and strength. Yet, the consequences of this asymmetry in biotic interactions for the short- and long-term persistence of individual species and entire communities remains unclear. Here, we develop a set of metrics to evaluate how asymmetric interactions among species translate to asymmetries in their individual vulnerability to extinction under changing environmental conditions. These metrics, which solve previous limitations of how to independently quantify the size from the shape of the so-called feasibility domain, provide rigorous advances to understand simultaneously why some species and communities present more opportunities to persist than others. We further demonstrate that our shape-related metrics are useful to predict short-term changes in species' relative abundances during 7 years in a Mediterranean grassland. Our approach is designed to be applied to any ecological system regardless of the number of species and type of interactions. With it, we show that is possible to obtain both mechanistic and predictive information on ecological persistence for individual species and entire communities, paving the way for a stronger integration of theoretical and empirical research., (© 2023 John Wiley & Sons Ltd.)

Published

2023

31. Biodiversity and pollination benefits trade off against profit in an intensive farming system.

Author

Scheper J, Badenhausser I, Kantelhardt J, Kirchweger S, Bartomeus I, Bretagnolle V, Clough Y, Gross N, Raemakers I, Vilà M, Zaragoza-Trello C, and Kleijn D

Subjects

Bees, Animals, Farms, Biodiversity, Agriculture methods, Crops, Agricultural, Conservation of Natural Resources, Ecosystem, Pollination

Abstract

Agricultural expansion and intensification have boosted global food production but have come at the cost of environmental degradation and biodiversity loss. Biodiversity-friendly farming that boosts ecosystem services, such as pollination and natural pest control, is widely being advocated to maintain and improve agricultural productivity while safeguarding biodiversity. A vast body of evidence showing the agronomic benefits of enhanced ecosystem service delivery represent important incentives to adopt practices enhancing biodiversity. However, the costs of biodiversity-friendly management are rarely taken into account and may represent a major barrier impeding uptake by farmers. Whether and how biodiversity conservation, ecosystem service delivery, and farm profit can go hand in hand is unknown. Here, we quantify the ecological, agronomic, and net economic benefits of biodiversity-friendly farming in an intensive grassland-sunflower system in Southwest France. We found that reducing land-use intensity on agricultural grasslands drastically enhances flower availability and wild bee diversity, including rare species. Biodiversity-friendly management on grasslands furthermore resulted in an up to 17% higher revenue on neighboring sunflower fields through positive effects on pollination service delivery. However, the opportunity costs of reduced grassland forage yields consistently exceeded the economic benefits of enhanced sunflower pollination. Our results highlight that profitability is often a key constraint hampering adoption of biodiversity-based farming and uptake critically depends on society's willingness to pay for associated delivery of public goods such as biodiversity.

Published

2023

32. Non-random interactions within and across guilds shape the potential to coexist in multi-trophic ecological communities.

Author

García-Callejas D, Godoy O, Buche L, Hurtado M, Lanuza JB, Allen-Perkins A, and Bartomeus I

Subjects

Herbivory, Ecosystem, Biota, Nutritional Status

Abstract

Theory posits that the persistence of species in ecological communities is shaped by their interactions within and across trophic guilds. However, we lack empirical evaluations of how the structure, strength and sign of biotic interactions drive the potential to coexist in diverse multi-trophic communities. Here, we model community feasibility domains, a theoretically informed measure of multi-species coexistence probability, from grassland communities comprising more than 45 species on average from three trophic guilds (plants, pollinators and herbivores). Contrary to our hypothesis, increasing community complexity, measured either as the number of guilds or community richness, did not decrease community feasibility. Rather, we observed that high degrees of species self-regulation and niche partitioning allow for maintaining larger levels of community feasibility and higher species persistence in more diverse communities. Our results show that biotic interactions within and across guilds are not random in nature and both structures significantly contribute to maintaining multi-trophic diversity., (© 2023 John Wiley & Sons Ltd.)

Published

2023

33. The non-random assembly of network motifs in plant-pollinator networks.

Author

Lanuza JB, Allen-Perkins A, and Bartomeus I

Subjects

Animals, Geography, Plants, Flowers, Pollination

Abstract

Ecological processes leave distinct structural imprints on the species interactions that shape the topology of animal-plant mutualistic networks. Detecting how direct and indirect interactions between animals and plants are organised is not trivial since they go beyond pairwise interactions, but may get blurred when considering global network descriptors. Recent work has shown that the meso-scale, the intermediate level of network complexity between the species and the global network, can capture this important information. The meso-scale describes network subgraphs representing patterns of direct and indirect interactions between a small number of species, and when these network subgraphs differ statistically from a benchmark, they are often referred to as 'network motifs'. Although motifs can capture relevant ecological information of species interactions, they remain overlooked in natural plant-pollinator networks. By exploring 60 empirical plant-pollinator networks from 18 different studies with wide geographical coverage, we show that some network subgraphs are consistently under- or over-represented, suggesting the presence of worldwide network motifs in plant-pollinator networks. In addition, we found a higher proportion of densely connected network subgraphs that, based on previous findings, could reflect that species relative abundances are the main driver shaping the structure of the meso-scale on plant-pollinator communities. Moreover, we found that distinct subgraph positions describing species ecological roles (e.g. generalisation and number of indirect interactions) are occupied by different groups of animal and plant species representing their main life-history strategies (i.e. functional groups). For instance, we found that the functional group of 'bees' was over-represented in subgraph positions with a lower number of indirect interactions in contrast to the rest of floral visitors groups. Finally, we show that the observed functional group combinations within a subgraph cannot be retrieved from their expected probabilities (i.e. joint probability distributions), indicating that plant and floral visitor associations within subgraphs are not random either. Our results highlight the presence of common network motifs in plant-pollinator communities that are formed by a non-random association of plants and floral visitors functional groups., (© 2023 The Authors. Journal of Animal Ecology © 2023 British Ecological Society.)

Published

2023

34. Intraspecific variation in species interactions promotes the feasibility of mutualistic assemblages.

Author

Arroyo-Correa B, Jordano P, and Bartomeus I

Subjects

Humans, Feasibility Studies, Symbiosis, Phenotype, Flowers, Pollination, Plants

Abstract

Patterns of resource use observed at the species level emerge from the way individuals exploit the range of available resources. Hence, accounting for interindividual differences in resource use, such as pollinator use by plants, is essential to advance our understanding of community assembly and persistence. By using finely resolved data on plant-pollinator interactions, we evaluated how interindividual plant variation in pollinator use scales up to affect community structure and dynamics. All co-occurring plant species comprised specialists interacting with proper subsets of pollinators that visited generalists, and differences in interaction patterns were driven by among-individual trait variation. Furthermore, the nested structure and feasibility of plant-pollinator communities were maximised at higher levels of interindividual plant variation in traits and pollinator use. Our study sheds light on how pervasive properties of community structure arise from individual-level processes and contributes to elucidate the importance of preserving intraspecific variation in traits and resource use within populations., (© 2023 The Authors. Ecology Letters published by John Wiley & Sons Ltd.)

Published

2023

35. Characterization Factors to Assess Land Use Impacts on Pollinator Abundance in Life Cycle Assessment.

Author

Alejandre EM, Scherer L, Guinée JB, Aizen MA, Albrecht M, Balzan MV, Bartomeus I, Bevk D, Burkle LA, Clough Y, Cole LJ, Delphia CM, Dicks LV, Garratt MPD, Kleijn D, Kovács-Hostyánszki A, Mandelik Y, Paxton RJ, Petanidou T, Potts S, Sárospataki M, Schulp CJE, Stavrinides M, Stein K, Stout JC, Szentgyörgyi H, Varnava AI, Woodcock BA, and van Bodegom PM

Subjects

Animals, Food, Life Cycle Stages, Conservation of Natural Resources methods

Abstract

While wild pollinators play a key role in global food production, their assessment is currently missing from the most commonly used environmental impact assessment method, Life Cycle Assessment (LCA). This is mainly due to constraints in data availability and compatibility with LCA inventories. To target this gap, relative pollinator abundance estimates were obtained with the use of a Delphi assessment, during which 25 experts, covering 16 nationalities and 45 countries of expertise, provided scores for low, typical, and high expected abundance associated with 24 land use categories. Based on these estimates, this study presents a set of globally generic characterization factors (CFs) that allows translating land use into relative impacts to wild pollinator abundance. The associated uncertainty of the CFs is presented along with an illustrative case to demonstrate the applicability in LCA studies. The CFs based on estimates that reached consensus during the Delphi assessment are recommended as readily applicable and allow key differences among land use types to be distinguished. The resulting CFs are proposed as the first step for incorporating pollinator impacts in LCA studies, exemplifying the use of expert elicitation methods as a useful tool to fill data gaps that constrain the characterization of key environmental impacts.

Published

2023

36. Correction to: 'Towards a system-level causative knowledge of pollinator communities' 2022 by Saavedra et al.

Author

Saavedra S, Bartomeus I, Godoy O, Rohr RP, and Zu P

Published

2023

37. The potential and realized foraging movements of bees are differentially determined by body size and sociality.

Author

Kendall LK, Mola JM, Portman ZM, Cariveau DP, Smith HG, and Bartomeus I

Subjects

Animals, Biodiversity, Ecology, Ecosystem, Bees anatomy & histology, Bees physiology, Body Size physiology, Social Behavior, Appetitive Behavior physiology

Abstract

Reversing biodiversity declines requires a better understanding of organismal mobility, as movement processes dictate the scale at which species interact with the environment. Previous studies have demonstrated that species foraging ranges, and therefore, habitat use increases with body size. Yet, foraging ranges are also affected by other life-history traits, such as sociality, which influence the need of and ability to detect resources. We evaluated the effect of body size and sociality on potential and realized foraging ranges using a compiled dataset of 383 measurements for 81 bee species. Potential ranges were larger than realized ranges and increased more steeply with body size. Highly eusocial species had larger realized foraging ranges than primitively eusocial or solitary taxa. We contend that potential ranges describe species movement capabilities, whereas realized ranges depict how foraging movements result from interactions between species traits and environmental conditions. Furthermore, the complex communication strategies and large colony sizes in highly eusocial species may facilitate foraging over wider areas in response to resource depletion. Our findings should contribute to a greater understanding of landscape ecology and conservation, as traits that influence movement mediate species vulnerability to habitat loss and fragmentation., (© 2022 The Authors. Ecology published by Wiley Periodicals LLC on behalf of The Ecological Society of America.)

Published

2022

38. Towards a system-level causative knowledge of pollinator communities.

Author

Saavedra S, Bartomeus I, Godoy O, Rohr RP, and Zu P

Subjects

Biota, Crop Production, Ecosystem, Biodiversity, Pollination

Abstract

Pollination plays a central role in both crop production and maintaining biodiversity. However, habitat loss, pesticides, invasive species and larger environmental fluctuations are contributing to a dramatic decline of pollinators worldwide. Different management solutions require knowledge of how ecological communities will respond following interventions. Yet, anticipating the response of these systems to interventions remains extremely challenging due to the unpredictable nature of ecological communities, whose nonlinear behaviour depends on the specific details of species interactions and the various unknown or unmeasured confounding factors. Here, we propose that this knowledge can be derived by following a probabilistic systems analysis rooted on non-parametric causal inference. The main outcome of this analysis is to estimate the extent to which a hypothesized cause can increase or decrease the probability that a given effect happens without making assumptions about the form of the cause-effect relationship. We discuss a road map for how this analysis can be accomplished with the aim of increasing our system-level causative knowledge of natural communities. This article is part of the theme issue 'Natural processes influencing pollinator health: from chemistry to landscapes'.

Published

2022

39. CropPol: A dynamic, open and global database on crop pollination.

Author

Allen-Perkins A, Magrach A, Dainese M, Garibaldi LA, Kleijn D, Rader R, Reilly JR, Winfree R, Lundin O, McGrady CM, Brittain C, Biddinger DJ, Artz DR, Elle E, Hoffman G, Ellis JD, Daniels J, Gibbs J, Campbell JW, Brokaw J, Wilson JK, Mason K, Ward KL, Gundersen KB, Bobiwash K, Gut L, Rowe LM, Boyle NK, Williams NM, Joshi NK, Rothwell N, Gillespie RL, Isaacs R, Fleischer SJ, Peterson SS, Rao S, Pitts-Singer TL, Fijen T, Boreux V, Rundlöf M, Viana BF, Klein AM, Smith HG, Bommarco R, Carvalheiro LG, Ricketts TH, Ghazoul J, Krishnan S, Benjamin FE, Loureiro J, Castro S, Raine NE, de Groot GA, Horgan FG, Hipólito J, Smagghe G, Meeus I, Eeraerts M, Potts SG, Kremen C, García D, Miñarro M, Crowder DW, Pisanty G, Mandelik Y, Vereecken NJ, Leclercq N, Weekers T, Lindstrom SAM, Stanley DA, Zaragoza-Trello C, Nicholson CC, Scheper J, Rad C, Marks EAN, Mota L, Danforth B, Park M, Bezerra ADM, Freitas BM, Mallinger RE, Oliveira da Silva F, Willcox B, Ramos DL, D da Silva E Silva F, Lázaro A, Alomar D, González-Estévez MA, Taki H, Cariveau DP, Garratt MPD, Nabaes Jodar DN, Stewart RIA, Ariza D, Pisman M, Lichtenberg EM, Schüepp C, Herzog F, Entling MH, Dupont YL, Michener CD, Daily GC, Ehrlich PR, Burns KLW, Vilà M, Robson A, Howlett B, Blechschmidt L, Jauker F, Schwarzbach F, Nesper M, Diekötter T, Wolters V, Castro H, Gaspar H, Nault BA, Badenhausser I, Petersen JD, Tscharntke T, Bretagnolle V, Willis Chan DS, Chacoff N, Andersson GKS, Jha S, Colville JF, Veldtman R, Coutinho J, Bianchi FJJA, Sutter L, Albrecht M, Jeanneret P, Zou Y, Averill AL, Saez A, Sciligo AR, Vergara CH, Bloom EH, Oeller E, Badano EI, Loeb GM, Grab H, Ekroos J, Gagic V, Cunningham SA, Åström J, Cavigliasso P, Trillo A, Classen A, Mauchline AL, Montero-Castaño A, Wilby A, Woodcock BA, Sidhu CS, Steffan-Dewenter I, Vogiatzakis IN, Herrera JM, Otieno M, Gikungu MW, Cusser SJ, Nauss T, Nilsson L, Knapp J, Ortega-Marcos JJ, González JA, Osborne JL, Blanche R, Shaw RF, Hevia V, Stout J, Arthur AD, Blochtein B, Szentgyorgyi H, Li J, Mayfield MM, Woyciechowski M, Nunes-Silva P, Halinski de Oliveira R, Henry S, Simmons BI, Dalsgaard B, Hansen K, Sritongchuay T, O'Reilly AD, Chamorro García FJ, Nates Parra G, Magalhães Pigozo C, and Bartomeus I

Subjects

Animals, Bees, Crops, Agricultural, Flowers, Insecta, Ecosystem, Pollination

Abstract

Seventy five percent of the world's food crops benefit from insect pollination. Hence, there has been increased interest in how global change drivers impact this critical ecosystem service. Because standardized data on crop pollination are rarely available, we are limited in our capacity to understand the variation in pollination benefits to crop yield, as well as to anticipate changes in this service, develop predictions, and inform management actions. Here, we present CropPol, a dynamic, open, and global database on crop pollination. It contains measurements recorded from 202 crop studies, covering 3,394 field observations, 2,552 yield measurements (i.e., berry mass, number of fruits, and fruit density [kg/ha], among others), and 47,752 insect records from 48 commercial crops distributed around the globe. CropPol comprises 32 of the 87 leading global crops and commodities that are pollinator dependent. Malus domestica is the most represented crop (32 studies), followed by Brassica napus (22 studies), Vaccinium corymbosum (13 studies), and Citrullus lanatus (12 studies). The most abundant pollinator guilds recorded are honey bees (34.22% counts), bumblebees (19.19%), flies other than Syrphidae and Bombyliidae (13.18%), other wild bees (13.13%), beetles (10.97%), Syrphidae (4.87%), and Bombyliidae (0.05%). Locations comprise 34 countries distributed among Europe (76 studies), North America (60), Latin America and the Caribbean (29), Asia (20), Oceania (10), and Africa (7). Sampling spans three decades and is concentrated on 2001-2005 (21 studies), 2006-2010 (40), 2011-2015 (88), and 2016-2020 (50). This is the most comprehensive open global data set on measurements of crop flower visitors, crop pollinators and pollination to date, and we encourage researchers to add more datasets to this database in the future. This data set is released for non-commercial use only. Credits should be given to this paper (i.e., proper citation), and the products generated with this database should be shared under the same license terms (CC BY-NC-SA)., (© 2021 The Ecological Society of America.)

Published

2022

40. Fine scale prediction of ecological community composition using a two-step sequential Machine Learning ensemble.

Author

Civantos-Gómez I, García-Algarra J, García-Callejas D, Galeano J, Godoy O, and Bartomeus I

Subjects

Algorithms, Computational Biology, Plants, Biota physiology, Machine Learning, Models, Biological

Abstract

Prediction is one of the last frontiers in ecology. Indeed, predicting fine-scale species composition in natural systems is a complex challenge as multiple abiotic and biotic processes operate simultaneously to determine local species abundances. On the one hand, species intrinsic performance and their tolerance limits to different abiotic pressures modulate species abundances. On the other hand, there is growing recognition that species interactions play an equally important role in limiting or promoting such abundances within ecological communities. Here, we present a joint effort between ecologists and data scientists to use data-driven models to predict species abundances using reasonably easy to obtain data. We propose a sequential data-driven modeling approach that in a first step predicts the potential species abundances based on abiotic variables, and in a second step uses these predictions to model the realized abundances once accounting for species competition. Using a curated data set over five years we predict fine-scale species abundances in a highly diverse annual plant community. Our models show a remarkable spatial predictive accuracy using only easy-to-measure variables in the field, yet such predictive power is lost when temporal dynamics are taken into account. This result suggests that predicting future abundances requires longer time series analysis to capture enough variability. In addition, we show that these data-driven models can also suggest how to improve mechanistic models by adding missing variables that affect species performance such as particular soil conditions (e.g. carbonate availability in our case). Robust models for predicting fine-scale species composition informed by the mechanistic understanding of the underlying abiotic and biotic processes can be a pivotal tool for conservation, especially given the human-induced rapid environmental changes we are experiencing. This objective can be achieved by promoting the knowledge gained with classic modelling approaches in ecology and recently developed data-driven models., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

41. Negative impacts of dominance on bee communities: Does the influence of invasive honey bees differ from native bees?

Author

Garibaldi LA, Pérez-Méndez N, Cordeiro GD, Hughes A, Orr M, Alves-Dos-Santos I, Freitas BM, Freitas de Oliveira F, LeBuhn G, Bartomeus I, Aizen MA, Andrade PB, Blochtein B, Boscolo D, Drumond PM, Gaglianone MC, Gemmill-Herren B, Halinski R, Krug C, Maués MM, Piedade Kiill LH, Pinheiro M, Pires CSS, and Viana BF

Subjects

Animals, Bees, Brazil, Seasons, Crops, Agricultural, Introduced Species

Abstract

Invasive species can reach high abundances and dominate native environments. One of the most impressive examples of ecological invasions is the spread of the African subspecies of the honey bee throughout the Americas, starting from its introduction in a single locality in Brazil. The invasive honey bee is expected to more negatively impact bee community abundance and diversity than native dominant species, but this has not been tested previously. We developed a comprehensive and systematic bee sampling scheme, using a protocol deploying 11,520 pan traps across regions and crops for three years in Brazil. We found that invasive honey bees are now the single most dominant bee species. Such dominance has not only negative consequences for abundance and species richness of native bees but also for overall bee abundance (i.e., strong "numerical" effects of honey bees). Contrary to expectations, honey bees did not have stronger negative impacts than other native bees achieving similar levels of dominance (i.e., lack of negative "identity" effects of honey bees). These effects were markedly consistent across crop species, seasons and years, and were independent from land-use effects. Dominance could be a proxy of bee community degradation and more generally of the severity of ecological invasions., (© 2021 by the Ecological Society of America.)

Published

2021

42. Interaction between warming and landscape foraging resource availability on solitary bee reproduction.

Author

Zaragoza-Trello C, Vilà M, and Bartomeus I

Subjects

Animals, Bees, Climate Change, Flowers, Larva, Pollination, Reproduction

Abstract

Solitary bees comprise around 90% of bee species, playing an essential role in both wild and crop plant pollination. Bee populations are jeopardized by different global change pressures such as climate change and landscape transformation. However, the interactive effects of global change components have been little explored, especially for solitary bees. We conducted a factorial experiment using artificial nest-traps to analyse the combined effect of climate warming and landscape transformation on Osmia bicornis reproduction and offspring body size. The number of bee cocoons increased with temperature and flower abundance in the landscape. However, the sex ratio was biased towards males with warming, especially at low flower abundances. Male body size increased with temperature. Conversely, female body sizes showed strong interactive responses, increasing in size with high flower abundance in the landscape, but only at low temperatures. The abortion rate of larvae and parasitization were not significantly affected by neither flower abundance nor temperature. Because the body size of females in O. bicornis is key for the next generation's progeny success, our results indicate that the simultaneous exposure to a shortage of floral resources and high temperatures may have adverse direct fitness effects., (© 2021 British Ecological Society.)

Published

2021

43. The spatial configuration of biotic interactions shapes coexistence-area relationships in an annual plant community.

Author

García-Callejas D, Bartomeus I, and Godoy O

Subjects

Biodiversity, Grassland, Mediterranean Region, Models, Biological, Population Dynamics, Stochastic Processes, Ecosystem, Plants classification

Abstract

The increase of species richness with area is a universal phenomenon on Earth. However, this observation contrasts with our poor understanding of how these species-area relationships (SARs) emerge from the collective effects of area, spatial heterogeneity, and local interactions. By combining a structuralist approach with five years of empirical observations in a highly-diverse Mediterranean grassland, we show that spatial heterogeneity plays a little role in the accumulation of species richness with area in our system. Instead, as we increase the sampled area more species combinations are realized, and they coexist mainly due to direct pairwise interactions rather than by changes in single-species dominance or by indirect interactions. We also identify a small set of transient species with small population sizes that are consistently found across spatial scales. These findings empirically support the importance of the architecture of species interactions together with stochastic events for driving coexistence- and species-area relationships., (© 2021. The Author(s).)

Published

2021

44. The role of soils on pollination and seed dispersal.

Author

Carvalheiro LG, Bartomeus I, Rollin O, Timóteo S, and Tinoco CF

Subjects

Pollination, Seed Dispersal, Soil chemistry

Abstract

Ongoing environmental changes are affecting physical, chemical and biological soil components. Evidence of impacts of soil changes on pollinators' and seed dispersers' behaviour, fitness and density is scarce, but growing. Here, we reviewed information on such impacts and on a number of mechanisms that may explain its propagation, taking into account the full range of resources required by the large and diverse number of species of these two important functional groups. We show that while there is substantial evidence on the effects of soil nitrogen enrichment and changes in soil water content on the quality and quantity of floral and fruit resources, little is known on the effects of changes of other soil properties (e.g. soil pH, soil structure, other nutrients). Also, the few studies showing correlations between soil changes and pollinator and seed disperser foraging behaviour or fitness do not clearly identify the mechanisms that explain such correlation. Finally, most studies (including those with nitrogen and water) are local and limited to a small number of species, and it remains unclear how variable such effects are across time and geographical regions, and the strength of interactive effects between soil properties. Increasing research on this topic, taking into consideration how impacts propagate through species interaction networks, will provide essential information to predict impacts of ongoing environmental changes and help guide conservation plans that aim to minimize impacts on ecosystem functioning. This article is part of the theme issue 'The role of soils in delivering Nature's Contributions to People'.

Published

2021

45. Brain size predicts learning abilities in bees.

Author

Collado MÁ, Montaner CM, Molina FP, Sol D, and Bartomeus I

Abstract

When it comes to the brain, bigger is generally considered better in terms of cognitive performance. While this notion is supported by studies of birds and primates showing that larger brains improve learning capacity, similar evidence is surprisingly lacking for invertebrates. Although the brain of invertebrates is smaller and simpler than that of vertebrates, recent work in insects has revealed enormous variation in size across species. Here, we ask whether bee species that have larger brains also have higher learning abilities. We conducted an experiment in which field-collected individuals had to associate an unconditioned stimulus (sucrose) with a conditioned stimulus (coloured strip). We found that most species can learn to associate a colour with a reward, yet some do so better than others. These differences in learning were related to brain size: species with larger brains-both absolute and relative to body size-exhibited enhanced performance to learn the reward-colour association. Our finding highlights the functional significance of brain size in insects, filling a major gap in our understanding of brain evolution and opening new opportunities for future research., (© 2021 The Authors.)

Published

2021

46. Identifying "Useful" Fitness Models: Balancing the Benefits of Added Complexity with Realistic Data Requirements in Models of Individual Plant Fitness.

Author

Martyn TE, Stouffer DB, Godoy O, Bartomeus I, Pastore AI, and Mayfield MM

Subjects

Genetic Fitness, Models, Biological, Plants

Abstract

AbstractDirect species interactions are commonly included in individual fitness models used for coexistence and local diversity modeling. Though widely considered important for such models, direct interactions alone are often insufficient for accurately predicting fitness, coexistence, or diversity outcomes. Incorporating higher-order interactions (HOIs) can lead to more accurate individual fitness models but also adds many model terms, which can quickly result in model overfitting. We explore approaches for balancing the trade-off between tractability and model accuracy that occurs when HOIs are added to individual fitness models. To do this, we compare models parameterized with data from annual plant communities in Australia and Spain, varying in the extent of information included about the focal and neighbor species. The best-performing models for both data sets were those that grouped neighbors based on origin status and life form, a grouping approach that reduced the number of model parameters substantially while retaining important ecological information about direct interactions and HOIs. Results suggest that the specific identity of focal or neighbor species is not necessary for building well-performing fitness models that include HOIs. In fact, grouping neighbors by even basic functional information seems sufficient to maximize model accuracy, an important outcome for the practical use of HOI-inclusive fitness models.

Published

2021

47. Experimental evidence of the importance of multitrophic structure for species persistence.

Author

Bartomeus I, Saavedra S, Rohr RP, and Godoy O

Subjects

Ecosystem, Plants, Pollination, Probability, Biodiversity, Models, Theoretical

Abstract

Ecological theory predicts that species interactions embedded in multitrophic networks shape the opportunities for species to persist. However, the lack of experimental support of this prediction has limited our understanding of how species interactions occurring within and across trophic levels simultaneously regulate the maintenance of biodiversity. Here, we integrate a mathematical approach and detailed experiments in plant-pollinator communities to demonstrate the need to jointly account for species interactions within and across trophic levels when estimating the ability of species to persist. Within the plant trophic level, we show that the persistence probability of plant species increases when introducing the effects of plant-pollinator interactions. Across trophic levels, we show that the persistence probabilities of both plants and pollinators exhibit idiosyncratic changes when experimentally manipulating the multitrophic structure. Importantly, these idiosyncratic effects are not recovered by traditional simulations. Our work provides tractable experimental and theoretical platforms upon which it is possible to investigate the multitrophic factors affecting species persistence in ecological communities., Competing Interests: The authors declare no competing interest.

Published

2021

48. Innovation in solitary bees is driven by exploration, shyness and activity levels.

Author

Collado MÁ, Menzel R, Sol D, and Bartomeus I

Subjects

Animals, Bees, Learning, Shyness

Abstract

Behavioural innovation and problem solving are widely considered to be important mechanisms by which animals respond to novel environmental challenges, including those induced by human activities. Despite their functional and ecological relevance, much of our current understanding of these processes comes from studies in vertebrates. Understanding of these processes in invertebrates has lagged behind partly because they are not perceived to have the cognitive machinery required. This perception is, however, challenged by recent evidence demonstrating sophisticated cognitive capabilities in insects despite their small brains. Here, we studied innovation, defined as the capacity to solve a new task, of a solitary bee ( Osmia cornuta ) in the laboratory by exposing naive individuals to an obstacle removal task. We also studied the underlying cognitive and non-cognitive mechanisms through a battery of experimental tests designed to measure associative learning, exploration, shyness and activity levels. We found that solitary bees can innovate, with 11 of 29 individuals (38%) being able to solve a new task consisting of lifting a lid to reach a reward. However, the propensity to innovate was uncorrelated with the measured learning capacity, but increased with exploration, boldness and activity. These results provide solid evidence that non-social insects can solve new tasks, and highlight the importance of interpreting innovation in the light of non-cognitive processes., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2021. Published by The Company of Biologists Ltd.)

Published

2021

49. Species-habitat networks elucidate landscape effects on habitat specialisation of natural enemies and pollinators.

Author

Lami F, Bartomeus I, Nardi D, Beduschi T, Boscutti F, Pantini P, Santoiemma G, Scherber C, Tscharntke T, and Marini L

Subjects

Agriculture, Animals, Extinction, Biological, Specialization, Arthropods, Ecosystem

Abstract

Measuring habitat specialisation is pivotal for predicting species extinctions and for understanding consequences on ecosystem functioning. Here, we sampled pollinator and natural enemy communities in all major habitat types occurring across multiple agricultural landscapes and used species-habitat networks to determine how habitat specialisation changed along gradients in landscape composition and configuration. Although it is well known that landscape simplification often causes the replacement of specialists with generalists, our study provided evidence for intraspecific variation in habitat specialisation, highlighting how a large number of arthropod species adapted their way of selecting habitat resources depending on the landscape structure. Groups with higher diet specialisation and limited foraging flexibility appeared to have a reduced ability to respond to landscape changes, indicating that some arthropod taxa are better able than others to adapt to an increasingly broad set of resources and persist in highly impacted landscapes., (© 2020 John Wiley & Sons Ltd.)

Published

2021

50. Multiple stressors interact to impair the performance of bumblebee Bombus terrestris colonies.

Author

Botías C, Jones JC, Pamminger T, Bartomeus I, Hughes WOH, and Goulson D

Subjects

Animals, Bees, Male, Pollination, Reproduction, Insecticides toxicity, Nosema

Abstract

Bumblebees are constantly exposed to a wide range of biotic and abiotic stresses which they must defend themselves against to survive. Pathogens and pesticides represent important stressors that influence bumblebee health, both when acting alone or in combination. To better understand bumblebee health, we need to investigate how these factors interact, yet experimental studies to date generally focus on only one or two stressors. The aim of this study is to evaluate how combined effects of four important stressors (the gut parasite Nosema ceranae, the neonicotinoid insecticide thiamethoxam, the pyrethroid insecticide cypermethrin and the EBI fungicide tebuconazole) interact to affect bumblebees at the individual and colony levels. We established seven treatment groups of colonies that we pulse exposed to different combinations of these stressors for 2 weeks under laboratory conditions. Colonies were subsequently placed in the field for 7 weeks to evaluate the effect of treatments on the prevalence of N. ceranae in inoculated bumblebees, expression levels of immunity and detoxification-related genes, food collection, weight gain, worker and male numbers, and production of worker brood and reproductives. Exposure to pesticide mixtures reduced food collection by bumblebees. All immunity-related genes were upregulated in the bumblebees inoculated with N. ceranae when they had not been exposed to pesticide mixtures, and bumblebees exposed to the fungicide and the pyrethroid were less likely to have N. ceranae. Combined exposure to the three-pesticide mixture and N. ceranae reduced bumblebee colony growth, and all treatments had detrimental effects on brood production. The groups exposed to the neonicotinoid insecticide produced 40%-76% fewer queens than control colonies. Our findings show that exposure to combinations of stressors that bumblebees frequently come into contact with have detrimental effects on colony health and performance and could therefore have an impact at the population level. These results also have significant implications for current practices and policies for pesticide risk assessment and use as the combinations tested here are frequently applied simultaneously in the field. Understanding the interactions between different stressors will be crucial for improving our ability to manage bee populations and for ensuring pollination services into the future., (© 2020 British Ecological Society.)

Published

2021