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2. Genomic Signatures of Domestication in a Fungus Obligately Farmed by Leafcutter Ants.

Author

Leal-Dutra, Caio A, Vizueta, Joel, Baril, Tobias, Kooij, Pepijn W, Rødsgaard-Jørgensen, Asta, Conlon, Benjamin H, Croll, Daniel, and Shik, Jonathan Z

Subjects
LEAF-cutting ants, AGRICULTURE, NATURAL selection, PLANT genes, CROPS
Abstract

The naturally selected fungal crop (Leucoagaricus gongylophorus) farmed by leafcutter ants shows striking parallels with artificially selected plant crops domesticated by humans (e.g. polyploidy, engorged nutritional rewards, and dependence on cultivation). To date, poorly resolved L. gongylophorus genome assemblies based on short-read sequencing have constrained hypotheses about how millions of years under cultivation by ants shaped the fungal crop genome and potentially drove domestication. We use PacBio HiFi sequencing of L. gongylophorus from the leafcutter ant Atta colombica to identify 18 putatively novel biosynthetic gene clusters that likely cemented life as a cultivar (e.g. plant fragment degradation, ant–farmer communication, and antimicrobial defense). Comparative analyses with cultivated and free-living fungi showed genomic signatures of stepwise domestication transitions: (i) free-living to ant-cultivated: loss of genes conferring stress response and detoxification; (ii) hyphal food to engorged nutritional rewards: expansions of genes governing cellular homeostasis, carbohydrate metabolism, and siderophore biosynthesis; and (iii) detrital provisioning to freshly cut plant fragments: gene expansions promoting cell wall biosynthesis, fatty acid metabolism, and DNA repair. Comparisons across L. gongylophorus fungi farmed by 3 leafcutter ant species highlight genomic signatures of exclusively vertical clonal propagation and widespread transposable element activity. These results show how natural selection can shape domesticated cultivar genomes toward long-term ecological resilience of farming systems that have thrived across millennia. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Ecological strategies of (pl)ants:Towards a world-wide worker economic spectrum for ants

Author

Gibb, Heloise, Bishop, Tom R., Leahy, Lily, Parr, Catherine L, Lessard, Jean-Philippe, Sanders, Nathan J., Shik, Jonathan Z., Ibarra-Isassi, Javier, Narendra, Ajay, Dunn, Robert R., Wright, Ian J., Gibb, Heloise, Bishop, Tom R., Leahy, Lily, Parr, Catherine L, Lessard, Jean-Philippe, Sanders, Nathan J., Shik, Jonathan Z., Ibarra-Isassi, Javier, Narendra, Ajay, Dunn, Robert R., and Wright, Ian J.

Abstract

Current global challenges call for a rigorously predictive ecology. Our understanding of ecological strategies, imputed through suites of measurable functional traits, comes from decades of work that largely focussed on plants. However, a key question is whether plant ecological strategies resemble those of other organisms. Among animals, ants have long been recognised to possess similarities with plants: as (largely) central place foragers. For example, individual ant workers play similar foraging roles to plant leaves and roots and are similarly expendable. Frameworks that aim to understand plant ecological strategies through key functional traits, such as the ‘leaf economics spectrum’, offer the potential for significant parallels with ant ecological strategies. Here, we explore these parallels across several proposed ecological strategy dimensions, including an ‘economic spectrum’, propagule size-number trade-offs, apparency-defence trade-offs, resource acquisition trade-offs and stress-tolerance trade-offs. We also highlight where ecological strategies may differ between plants and ants. Furthermore, we consider how these strategies play out among the different modules of eusocial organisms, where selective forces act on the worker and reproductive castes, as well as the colony. Finally, we suggest future directions for ecological strategy research, including highlighting the availability of data and traits that may be more difficult to measure, but should receive more attention in future to better understand the ecological strategies of ants. The unique biology of eusocial organisms provides an unrivalled opportunity to bridge the gap in our understanding of ecological strategies in plants and animals and we hope that this perspective will ignite further interest. Read the free Plain Language Summary for this article on the Journal blog.

Published
2023

13. Nutritional challenges of feeding a mutualist:Testing for a nutrient–toxin tradeoff in fungus-farming leafcutter ants

Author

Crumière, Antonin J. J., Mallett, Sophie, Michelsen, Anders, Rinnan, Riikka, Shik, Jonathan Z., Crumière, Antonin J. J., Mallett, Sophie, Michelsen, Anders, Rinnan, Riikka, and Shik, Jonathan Z.

Abstract

The biochemical heterogeneity of food items often yields tradeoffs as each bite of food tends to contain some nutrients in surplus and others in deficit, as well as other less palatable or even toxic compounds. These multidimensional nutritional challenges are likely to be compounded when foraged foods are used to provision others (e.g., offspring or symbionts) with different physiological needs and tolerances. We explored these challenges in free-ranging colonies of leafcutter ants that navigate a diverse tropical forest to collect plant fragments they use to provision a co-evolved fungal cultivar. We tested the prediction that leafcutter farmers face provisioning tradeoffs between the nutritional quality and concentration of toxic tannins in foraged plant fragments. Chemical analyses of plant fragments sampled from the mandibles of Panamanian Atta colombica leafcutter ants provided little support for a nutrient–tannin foraging tradeoff. First, colonies foraged for plant fragments that ranged widely in tannin concentration. Second, high tannin levels did not appear to restrict colonies from selecting plant fragments with blends of protein and carbohydrates that maximized cultivar performance when measured with in vitro experiments. We also tested whether tannins expand the realized nutritional niche selected by leafcutter ants into high-protein dimensions as: (1) tannins can bind proteins and reduce their accessibility during digestion, and (2) in vitro experiments have shown that excess protein provisioning reduces cultivar performance. Contrary to this hypothesis, the most protein-rich plant fragments did not have highest tannin levels. More generally, the approach developed here can be used to test how multidimensional interactions between nutrients and toxins shape the costs and benefits of providing care to offspring or symbionts.

Published
2022

14. A fungal symbiont converts provisioned cellulose into edible yield for its leafcutter ant farmers

Author

Conlon, Benjamin H., O'Tuama, David, Michelsen, Anders, Crumière, Antonin J. J., Shik, Jonathan Z., Conlon, Benjamin H., O'Tuama, David, Michelsen, Anders, Crumière, Antonin J. J., and Shik, Jonathan Z.

Abstract

While ants are dominant consumers in terrestrial habitats, only the leafcutters practice herbivory. Leafcutters do this by provisioning a fungal cultivar (Leucoagaricus gongylophorus) with freshly cut plant fragments and harnessing its metabolic machinery to convert plant mulch into edible fungal tissue (hyphae and swollen hyphal cells called gongylidia). The cultivar is known to degrade cellulose, but whether it assimilates this ubiquitous but recalcitrant molecule into its nutritional reward structures is unknown. We use in vitro experiments with isotopically labelled cellulose to show that fungal cultures from an Atta colombica leafcutter colony convert cellulose-derived carbon into gongylidia, even when potential bacterial symbionts are excluded. A laboratory feeding experiment showed that cellulose assimilation also occurs in vivo in A. colombica colonies. Analyses of publicly available transcriptomic data further identified a complete, constitutively expressed, cellulose-degradation pathway in the fungal cultivar. Confirming leafcutters use cellulose as a food source sheds light on the eco-evolutionary success of these important herbivores.

Published
2022

15. Male ant reproductive investment in a seasonal wet tropical forest:Consequences of future climate change

Author

Donoso, David A., Basset, Yves, Shik, Jonathan Z., Forrister, Dale L., Uquillas, Adriana, Salazar-Méndez, Yasmín, Arizala, Stephany, Polanco, Pamela, Beckett, Saul, Diego Dominguez, G., Barrios, Héctor, Donoso, David A., Basset, Yves, Shik, Jonathan Z., Forrister, Dale L., Uquillas, Adriana, Salazar-Méndez, Yasmín, Arizala, Stephany, Polanco, Pamela, Beckett, Saul, Diego Dominguez, G., and Barrios, Héctor

Abstract

Tropical forests sustain many ant species whose mating events often involve conspicuous flying swarms of winged gynes and males. The success of these reproductive flights depends on environmental variables and determines the maintenance of local ant diversity. However, we lack a strong understanding of the role of environmental variables in shaping the phenology of these flights. Using a combination of community-level analyses and a time-series model on male abundance, we studied male ant phenology in a seasonally wet lowland rainforest in the Panama Canal. The male flights of 161 ant species, sampled with 10 Malaise traps during 58 consecutive weeks (from August 2014 to September 2015), varied widely in number (mean = 9.8 weeks, median = 4, range = 1 to 58). Those species abundant enough for analysis (n = 97) flew mainly towards the end of the dry season and at the start of the rainy season. While litterfall, rain, temperature, and air humidity explained community composition, the time-series model estimators elucidated more complex patterns of reproductive investment across the entire year. For example, male abundance increased in weeks when maximum daily temperature increased and in wet weeks during the dry season. On the contrary, male abundance decreased in periods when rain receded (e.g., at the start of the dry season), in periods when rain fell daily (e.g., right after the beginning of the wet season), or when there was an increase in the short-term rate of litterfall (e.g., at the end of the dry season). Together, these results suggest that the BCI ant community is adapted to the dry/wet transition as the best timing of reproductive investment. We hypothesize that current climate change scenarios for tropical regions with higher average temperature, but lower rainfall, may generate phenological mismatches between reproductive flights and the adequate conditions needed for a successful start of the colony.

Published
2022

23. Fig.S1. 13C enrichment in media at the end of in vitro experiment from A fungal symbiont converts provisioned cellulose into edible yield for its leafcutter ant farmers

Author

Conlon, Benjamin H., O'Tuama, David, Michelsen, Anders, Crumière, Antonin J. J., and Shik, Jonathan Z.

Abstract

The media at the end of the experimental period was still significantly-enriched for both the 13C-cellulose treatment and 13C-glucose treatments relative to control (F2,72 = 1.771, p = 0.036), although cellulose and glucose treatments did not differ significantly from each other (padj = 1.000). This indicated that the fungus had not exhausted the available simple carbon sources in the medium. Means are indicated by diamonds and post-hoc groupings indicated by letters.

Published
2022
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24. Fig. S2. 16S quantification using ddPCR. from A fungal symbiont converts provisioned cellulose into edible yield for its leafcutter ant farmers

Author

Conlon, Benjamin H., O'Tuama, David, Michelsen, Anders, Crumière, Antonin J. J., and Shik, Jonathan Z.

Abstract

Studies on cellulose degradation since the results of Abril and Bucher (2002), which indicated Leucoagarcius gongylophorus was incapable of metabolising cellulose, and their main findings.;Results of 16S ddPCR analysis.;Results of 13C quantification using IRMS.;The media at the end of the experimental period was still significantly-enriched for both the 13C-cellulose treatment and 13C-glucose treatments relative to control (F2,72 = 1.771, p = 0.036), although cellulose and glucose treatments did not differ significantly from each other (padj = 1.000). This indicated that the fungus had not exhausted the available simple carbon sources in the medium. Means are indicated by diamonds and post-hoc groupings indicated by letters.;Fig.S2. The number of 16S rRNA copies in antibiotic and control treatments did not differ significantly from the negative control (F2 = 0.488, p = 0.616; Antibiotic – Negative: padj = 0.998; Control – Negative: padj = 0.909) or each other (Antibiotic – Control: padj = 0.597). There was no effect of substrate on 16S rRNA levels (F2 = 1.034, p = 0.360). Means are indicated by diamonds, the dashed line represents the gram-positive control while the solid line represents the gram-negative control.

Published
2022
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25. Table S1. Evidence for and against cellulose degradation, assimilation and metabolisation in Leucoagaricus gongylophorus. from A fungal symbiont converts provisioned cellulose into edible yield for its leafcutter ant farmers

Author

Conlon, Benjamin H., O'Tuama, David, Michelsen, Anders, Crumière, Antonin J. J., and Shik, Jonathan Z.

Abstract

Studies on cellulose degradation since the results of Abril and Bucher (2002), which indicated Leucoagarcius gongylophorus was incapable of metabolising cellulose, and their main findings.

Published
2022
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27. Ecological strategies of (pl)ants: Towards a world‐wide worker economic spectrum for ants.

Author

Gibb, Heloise, Bishop, Tom R., Leahy, Lily, Parr, Catherine L., Lessard, Jean‐Philippe, Sanders, Nathan J., Shik, Jonathan Z., Ibarra‐Isassi, Javier, Narendra, Ajay, Dunn, Robert R., and Wright, Ian J.

Subjects
ANTS, FORAGE plants, PLANT roots, PERIODICAL articles
Abstract

Current global challenges call for a rigorously predictive ecology. Our understanding of ecological strategies, imputed through suites of measurable functional traits, comes from decades of work that largely focussed on plants. However, a key question is whether plant ecological strategies resemble those of other organisms.Among animals, ants have long been recognised to possess similarities with plants: as (largely) central place foragers. For example, individual ant workers play similar foraging roles to plant leaves and roots and are similarly expendable. Frameworks that aim to understand plant ecological strategies through key functional traits, such as the 'leaf economics spectrum', offer the potential for significant parallels with ant ecological strategies.Here, we explore these parallels across several proposed ecological strategy dimensions, including an 'economic spectrum', propagule size‐number trade‐offs, apparency‐defence trade‐offs, resource acquisition trade‐offs and stress‐tolerance trade‐offs. We also highlight where ecological strategies may differ between plants and ants. Furthermore, we consider how these strategies play out among the different modules of eusocial organisms, where selective forces act on the worker and reproductive castes, as well as the colony.Finally, we suggest future directions for ecological strategy research, including highlighting the availability of data and traits that may be more difficult to measure, but should receive more attention in future to better understand the ecological strategies of ants. The unique biology of eusocial organisms provides an unrivalled opportunity to bridge the gap in our understanding of ecological strategies in plants and animals and we hope that this perspective will ignite further interest. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
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30. The multidimensional nutritional niche of fungus-cultivar provisioning in free-ranging colonies of a neotropical leafcutter ant

Author

Crumière, Antonin J. J., James, Aidan, Lannes, Pol, Mallett, Sophie, Michelsen, Anders, Rinnan, Riikka, Shik, Jonathan Z., Crumière, Antonin J. J., James, Aidan, Lannes, Pol, Mallett, Sophie, Michelsen, Anders, Rinnan, Riikka, and Shik, Jonathan Z.

Abstract

Foraging trails of leafcutter colonies are iconic scenes in the Neotropics, with ants collecting freshly cut plant fragments to provision a fungal food crop. We hypothesised that the fungus-cultivar's requirements for macronutrients and minerals govern the foraging niche breadth of Atta colombica leafcutter ants. Analyses of plant fragments carried by foragers showed how nutrients from fruits, flowers and leaves combine to maximise cultivar performance. While the most commonly foraged leaves delivered excess protein relative to the cultivar's needs, in vitro experiments showed that the minerals P, Al and Fe may expand the leafcutter foraging niche by enhancing the cultivar's tolerance to protein-biased substrates. A suite of other minerals reduces cultivar performance in ways that may render plant fragments with optimal macronutrient blends unsuitable for provisioning. Our approach highlights how the nutritional challenges of provisioning a mutualist can govern the multidimensional realised niche available to a generalist insect herbivore.

Published
2021

32. 24 Messages on a Sustainable Career in Research at UCPH

Author

Wegener, H. C., Stein, Amelie, Bach, Anders, Williams, Andrew Richard, Gall, Christa, Gravert, Christina, Gloriam, David E., Lorenzen, Eline, Yvanez, Elsa, Cappellini, Enrico, Poulsen, Frederik, Mortensen, Janus, Bentzen, Jeanet Sinding, Shik, Jonathan Z., Miskowiak, Kamilla Woznica, Elgaard, Karina Kim Egholm, Jønsson, Knud Andreas, Won, Kyoung Jae, Nørgaard, Lars Cyril, Cantarero Arevalo, Lourdes, Kristiansen, Maria, Lund, Marianne N., Borregaard, Michael Krabbe, Høyland-Kroghsbo, Nina Molin, Iversen, Rune, Viskum, Ulla, Nosch, Marie Louise Bech, Hjorth, Jens, and Larsen, Katrine Rønsig

Published
2020

33. 24 Messages on a Sustainable Career in Research at UCPH

Author

Larsen, Katrine Rønsig, Wegener, H. C., Stein, Amelie, Bach, Anders, Williams, Andrew Richard, Gall, Christa, Gravert, Christina, Gloriam, David E., Lorenzen, Eline, Yvanez, Elsa, Cappellini, Enrico, Poulsen, Frederik, Mortensen, Janus, Bentzen, Jeanet Sinding, Shik, Jonathan Z., Miskowiak, Kamilla Woznica, Elgaard, Karina Kim Egholm, Jønsson, Knud Andreas, Won, Kyoung Jae, Nørgaard, Lars Cyril, Cantarero Arevalo, Lourdes, Kristiansen, Maria, Lund, Marianne N., Borregaard, Michael Krabbe, Høyland-Kroghsbo, Nina Molin, Iversen, Rune, Viskum, Ulla, Nosch, Marie Louise Bech, Hjorth, Jens, Larsen, Katrine Rønsig, Wegener, H. C., Stein, Amelie, Bach, Anders, Williams, Andrew Richard, Gall, Christa, Gravert, Christina, Gloriam, David E., Lorenzen, Eline, Yvanez, Elsa, Cappellini, Enrico, Poulsen, Frederik, Mortensen, Janus, Bentzen, Jeanet Sinding, Shik, Jonathan Z., Miskowiak, Kamilla Woznica, Elgaard, Karina Kim Egholm, Jønsson, Knud Andreas, Won, Kyoung Jae, Nørgaard, Lars Cyril, Cantarero Arevalo, Lourdes, Kristiansen, Maria, Lund, Marianne N., Borregaard, Michael Krabbe, Høyland-Kroghsbo, Nina Molin, Iversen, Rune, Viskum, Ulla, Nosch, Marie Louise Bech, and Hjorth, Jens

Published
2020

40. Can interaction specificity in the fungus-farming termite symbiosis be explained by nutritional requirements of the fungal crop?

Author

da Costa, Rafael R., Vreeburg, Sabine M. E., Shik, Jonathan Z., Aanen, Duur K., Poulsen, Michael, da Costa, Rafael R., Vreeburg, Sabine M. E., Shik, Jonathan Z., Aanen, Duur K., and Poulsen, Michael

Abstract

Fungus-growing termites are associated with genus-specific fungal symbionts, which they acquire via horizontal transmission. Selection of specific symbionts may be explained by the provisioning of specific, optimal cultivar growth substrates by termite farmers. We tested whether differences in in vitro performance of Termitomyces cultivars from nests of three termite species on various substrates are correlated with the interaction specificity of their hosts. We performed single-factor growth assays (varying carbon sources), and a two-factor geometric framework experiment (simultaneously varying carbohydrate and protein availability). Although we did not find qualitative differences between Termitomyces strains in carbon-source use, there were quantitative differences, which we analysed using principal component analysis. This showed that growth of Termitomyces on different carbon sources was correlated with termite host genus, rather than host species, while growth on different ratios and concentrations of protein and carbohydrate was correlated with termite host species. Our findings corroborate the interaction specificity between fungus-growing termites and Termitomyces cultivars and indicate that specificity between termite hosts and fungi is reflected both nutritionally and physiologically. However, it remains to be demonstrated whether those differences contribute to selection of specific fungal cultivars by termites at the onset of colony foundation.

Published
2019

41. Using nutritional geometry to define the fundamental macronutrient niche of the widespread invasive ant Monomorium pharaonis

Author

Krabbe, Birla A., Arnan, Xavier, Lannes, Pol, Bergstedt, Christoffer Echtvad, Larsen, Rasmus Stenbak, Pedersen, Jes Søe, Shik, Jonathan Z., Krabbe, Birla A., Arnan, Xavier, Lannes, Pol, Bergstedt, Christoffer Echtvad, Larsen, Rasmus Stenbak, Pedersen, Jes Søe, and Shik, Jonathan Z.

Abstract

The emerging field of nutritional geometry (NG) provides powerful new approaches to test whether and how organisms prioritize specific nutritional blends when consuming chemically complex foods. NG approaches can thus help move beyond food-level estimates of diet breadth to predict invasive success, for instance by revealing narrow nutritional niches if broad diets are actually composed of nutritionally similar foods. We used two NG paradigms to provide different, but complementary insights into nutrient regulation strategies and test a hypothesis of extreme nutritional generalism in colony propagules of the globally distributed invasive ant Monomorium pharaonis. First, in two dimensions (protein:carbohydrates; P:C), M. pharaonis colonies consistently defended a slightly carbohydrate-biased intake target, while using a generalist equal-distance strategy of collectively overharvesting both protein and carbohydrates to reach this target when confined to imbalanced P:C diets. Second, a recently developed right-angled mixture triangle method enabled us to define the fundamental niche breadth in three dimensions (protein:carbohydrates:lipid, P:C:L). We found that colonies navigated the P:C:L landscape, in part, to mediate a tradeoff between worker survival (maximized on high-carbohydrate diets) and brood production (maximized on high-protein diets). Colonies further appeared unable to avoid this tradeoff by consuming extra lipids when the other nutrients were limiting. Colonies also did not rely on nutrient regulation inside their nests, as they did not hoard or scatter fractions of harvested diets to adjust the nutritional blends they consumed. These complementary NG approaches highlight that even the most successful invasive species with broad fundamental macronutrient niches must navigate complex multidimensional nutritional landscapes to acquire limiting macronutrients and overcome developmental constraints as small propagules.

Published
2019

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