2024 朱莉-S-登斯洛和彼得-阿什顿奖,表彰在《生物热带学报》上发表的优秀文章

IF 1.8 3区 环境科学与生态学 Q3 ECOLOGY Biotropica Pub Date : 2024-11-05 DOI:10.1111/btp.13396
Jennifer S. Powers
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Below, the authors of the award-winning articles describe what motivated their studies and how they hope the work will inspire other researchers; we hope you enjoy these insights into the process that led to their discoveries and ask that you join the Editorial Board of <i>Biotropica</i> and The Association for Tropical Biology and Conservation in congratulating the 2024 recipients, whose articles appeared in the 2023 issues.</p><p>Margarita Lampo</p><p>Margarita Lampo, Señaris, C., González, K., &amp; Ballestas, O. (2023). Smaller size of harlequin toads from populations long exposed to the fungal disease chytridiomycosis. <i>Biotropica</i>, 55, 699–705. https://doi.org/10.1111/btp.13220</p><p>Mauro Rivas-Ferreiro</p><p>Mauro Rivas-Ferreiro, Skarha, S. M., Rakotonasolo, F., Suz, L. M., &amp; Dentinger, B. T. M. (2023). DNA-based fungal diversity in Madagascar and arrival of the ectomycorrhizal fungi to the island. <i>Biotropica</i>, 55, 954–968. https://doi.org/10.1111/btp.13245</p><p>The study of fungal diversity in Madagascar has a long but fragmented history, with most of the early research dating back to the colonial period (until the late 1940s). During that time, tropical mycology in the colonies primarily focused on crop pathogens, and very few fungal specimens were collected or preserved in public collections. It was not until the 1990s that a series of opportunistic field surveys began to document the diversity of certain genera, such as <i>Marasmius</i>, <i>Cantharellus</i>, and <i>Russula</i>. These surveys facilitated the description of new species and underscored Madagascar's unique yet vastly underexplored fungal diversity, which remains under constant threat.</p><p>Our project began in February 2012, when Dr. Bryn Dentinger, then Senior Researcher in Mycology at the Royal Botanic Gardens Kew, conducted fieldwork in Madagascar with the help of Dr. Franck Rakotonasolo. Bryn was looking to explore the fungal diversity in the island, so he collected both fungal sporocarps (mushrooms) and roots from trees known to form ectomycorrhizal symbioses with fungi, so he could account for both the aboveground and belowground diversity of fungi. A second expedition followed in November of the same year, this time collecting only sporocarps. In March 2014, he returned with Dr. Paul Cannon and Dr. Laura M. Suz, also from RBG Kew, to collect both sporocarps and ectomycorrhizal roots. Finally, during her MSc field trip module in February 2017, Shannon Skarha also went to Madagascar and collected roots from both endemic and non-native ectomycorrhizal trees.</p><p>By 2020, I had joined the MSc program at RBG Kew and was keen to work on ectomycorrhizal fungi. I contacted Laura and she invited me to work with all the genetic and ecological data accumulated over the years by all of these researchers. I gladly took on the opportunity to work with tropical fungi, particularly because after my MSc I wanted to pursue a PhD in mycology; a year later, I did start my PhD journey, which allowed me to continue working on this Malagasy fungi project until it was published.</p><p>Our initial goal with this study was to place Malagasy fungi within the broader context of global fungal diversity. For that, we compiled several different genetic datasets and compared them with our Malagasy data. Remarkably, our opportunistic surveys accounted for 10% of the known fungal diversity of Madagascar. We also found out that the pattern of endemicity shown in Malagasy plants and animals seems to hold true for fungi as well, with around 60% of all fungal species and 81% of the ectomycorrhizal species being only ever found in Madagascar, nowhere else in the world.</p><p>Building on these findings, we sought to test the hypothesis of a Gondwanan origin of ectomycorrhizal symbiosis in Madagascar. We focused on three ectomycorrhizal families—Amanitaceae, Boletaceae, and Russulaceae—and used a molecular dating approach to assess their arrival on the island. While the results varied, our analyses suggested that all Malagasy ectomycorrhizal species arrived via long-distance dispersal, well after the separation of the India–Madagascar landmass (88 million years ago).</p><p>Almost a year after our study was published in <i>BIOTROPICA</i>, I had the opportunity to conduct my own fieldwork in Madagascar. With the support of the Bentham–Moxon Trust and the Emily Holmes Memorial Scholarships, I was able to conduct fieldwork in Madagascar with my now PhD supervisor Laura M. Suz, with Malagasy mycologist Anna B. Ralaiveloarisoa, along with Spanish mycologists Rodrigo Márquez-Sanz, Ibai Olariaga, and Sergio Pérez-Gorjón. During the 2 weeks of fieldwork, we collected close to 700 fungal sporocarps, as well as 120 root samples. This massive amount of data will help us to not only describe new fungal species but also start understanding patterns of distribution, evolution, and diversity of the Funga of Madagascar. Additionally, these data will refine the findings from our previous study and may reveal patterns of endemism in other fungal guilds, such as saprotrophic fungi.</p><p>Madagascar's fungal diversity is under increasing threat from deforestation, fires, and large-scale mining operations. Time is critical if we are to document and conserve this unique mycobiota. Sustained funding and support for taxonomic research on the island are essential to achieving this goal before these species—and the ecosystems they support—are lost (Figures 3-5).</p>","PeriodicalId":8982,"journal":{"name":"Biotropica","volume":"56 6","pages":""},"PeriodicalIF":1.8000,"publicationDate":"2024-11-05","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://onlinelibrary.wiley.com/doi/epdf/10.1111/btp.13396","citationCount":"0","resultStr":"{\"title\":\"2024 Julie S Denslow & Peter Ashton Prizes for the outstanding articles published in Biotropica\",\"authors\":\"Jennifer S. Powers\",\"doi\":\"10.1111/btp.13396\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p>Every year, <i>Biotropica</i>'s Editorial Board selects outstanding papers in our journal as the recipients of the <b>Julie S. Denslow</b> and <b>Peter Ashton Prizes</b>, with which we honor the outstanding articles published in our journal in the previous calendar year. Criteria for selecting the papers to receive these awards include clarity of presentation, a strong basis in natural history, well-planned experimental or sampling design, and the novel insights gained into critical processes that influence the structure, functioning, or conservation of tropical systems. Below, the authors of the award-winning articles describe what motivated their studies and how they hope the work will inspire other researchers; we hope you enjoy these insights into the process that led to their discoveries and ask that you join the Editorial Board of <i>Biotropica</i> and The Association for Tropical Biology and Conservation in congratulating the 2024 recipients, whose articles appeared in the 2023 issues.</p><p>Margarita Lampo</p><p>Margarita Lampo, Señaris, C., González, K., &amp; Ballestas, O. (2023). Smaller size of harlequin toads from populations long exposed to the fungal disease chytridiomycosis. <i>Biotropica</i>, 55, 699–705. https://doi.org/10.1111/btp.13220</p><p>Mauro Rivas-Ferreiro</p><p>Mauro Rivas-Ferreiro, Skarha, S. M., Rakotonasolo, F., Suz, L. M., &amp; Dentinger, B. T. M. (2023). DNA-based fungal diversity in Madagascar and arrival of the ectomycorrhizal fungi to the island. <i>Biotropica</i>, 55, 954–968. https://doi.org/10.1111/btp.13245</p><p>The study of fungal diversity in Madagascar has a long but fragmented history, with most of the early research dating back to the colonial period (until the late 1940s). During that time, tropical mycology in the colonies primarily focused on crop pathogens, and very few fungal specimens were collected or preserved in public collections. It was not until the 1990s that a series of opportunistic field surveys began to document the diversity of certain genera, such as <i>Marasmius</i>, <i>Cantharellus</i>, and <i>Russula</i>. These surveys facilitated the description of new species and underscored Madagascar's unique yet vastly underexplored fungal diversity, which remains under constant threat.</p><p>Our project began in February 2012, when Dr. Bryn Dentinger, then Senior Researcher in Mycology at the Royal Botanic Gardens Kew, conducted fieldwork in Madagascar with the help of Dr. Franck Rakotonasolo. Bryn was looking to explore the fungal diversity in the island, so he collected both fungal sporocarps (mushrooms) and roots from trees known to form ectomycorrhizal symbioses with fungi, so he could account for both the aboveground and belowground diversity of fungi. A second expedition followed in November of the same year, this time collecting only sporocarps. 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引用次数: 0

摘要

Ralaiveloarisoa 以及西班牙真菌学家罗德里戈-马尔克斯-桑斯(Rodrigo Márquez-Sanz)、伊拜-奥拉利亚加(Ibai Olariaga)和塞尔吉奥-佩雷斯-戈尔洪(Sergio Pérez-Gorjón)。在为期两周的实地考察中,我们收集了近 700 个真菌孢子块和 120 个根部样本。这些海量数据不仅有助于我们描述新的真菌物种,还有助于我们开始了解马达加斯加真菌的分布、进化和多样性模式。此外,这些数据还将完善我们之前的研究结果,并可能揭示其他真菌类群的特有性模式,如腐生真菌。马达加斯加的真菌多样性正受到森林砍伐、火灾和大规模采矿作业的日益严重的威胁。要想记录和保护这一独特的真菌生物群,时间至关重要。要在这些物种和它们赖以生存的生态系统消失之前实现这一目标,持续资助和支持岛上的分类研究至关重要(图 3-5)。
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2024 Julie S Denslow & Peter Ashton Prizes for the outstanding articles published in Biotropica

Every year, Biotropica's Editorial Board selects outstanding papers in our journal as the recipients of the Julie S. Denslow and Peter Ashton Prizes, with which we honor the outstanding articles published in our journal in the previous calendar year. Criteria for selecting the papers to receive these awards include clarity of presentation, a strong basis in natural history, well-planned experimental or sampling design, and the novel insights gained into critical processes that influence the structure, functioning, or conservation of tropical systems. Below, the authors of the award-winning articles describe what motivated their studies and how they hope the work will inspire other researchers; we hope you enjoy these insights into the process that led to their discoveries and ask that you join the Editorial Board of Biotropica and The Association for Tropical Biology and Conservation in congratulating the 2024 recipients, whose articles appeared in the 2023 issues.

Margarita Lampo

Margarita Lampo, Señaris, C., González, K., & Ballestas, O. (2023). Smaller size of harlequin toads from populations long exposed to the fungal disease chytridiomycosis. Biotropica, 55, 699–705. https://doi.org/10.1111/btp.13220

Mauro Rivas-Ferreiro

Mauro Rivas-Ferreiro, Skarha, S. M., Rakotonasolo, F., Suz, L. M., & Dentinger, B. T. M. (2023). DNA-based fungal diversity in Madagascar and arrival of the ectomycorrhizal fungi to the island. Biotropica, 55, 954–968. https://doi.org/10.1111/btp.13245

The study of fungal diversity in Madagascar has a long but fragmented history, with most of the early research dating back to the colonial period (until the late 1940s). During that time, tropical mycology in the colonies primarily focused on crop pathogens, and very few fungal specimens were collected or preserved in public collections. It was not until the 1990s that a series of opportunistic field surveys began to document the diversity of certain genera, such as Marasmius, Cantharellus, and Russula. These surveys facilitated the description of new species and underscored Madagascar's unique yet vastly underexplored fungal diversity, which remains under constant threat.

Our project began in February 2012, when Dr. Bryn Dentinger, then Senior Researcher in Mycology at the Royal Botanic Gardens Kew, conducted fieldwork in Madagascar with the help of Dr. Franck Rakotonasolo. Bryn was looking to explore the fungal diversity in the island, so he collected both fungal sporocarps (mushrooms) and roots from trees known to form ectomycorrhizal symbioses with fungi, so he could account for both the aboveground and belowground diversity of fungi. A second expedition followed in November of the same year, this time collecting only sporocarps. In March 2014, he returned with Dr. Paul Cannon and Dr. Laura M. Suz, also from RBG Kew, to collect both sporocarps and ectomycorrhizal roots. Finally, during her MSc field trip module in February 2017, Shannon Skarha also went to Madagascar and collected roots from both endemic and non-native ectomycorrhizal trees.

By 2020, I had joined the MSc program at RBG Kew and was keen to work on ectomycorrhizal fungi. I contacted Laura and she invited me to work with all the genetic and ecological data accumulated over the years by all of these researchers. I gladly took on the opportunity to work with tropical fungi, particularly because after my MSc I wanted to pursue a PhD in mycology; a year later, I did start my PhD journey, which allowed me to continue working on this Malagasy fungi project until it was published.

Our initial goal with this study was to place Malagasy fungi within the broader context of global fungal diversity. For that, we compiled several different genetic datasets and compared them with our Malagasy data. Remarkably, our opportunistic surveys accounted for 10% of the known fungal diversity of Madagascar. We also found out that the pattern of endemicity shown in Malagasy plants and animals seems to hold true for fungi as well, with around 60% of all fungal species and 81% of the ectomycorrhizal species being only ever found in Madagascar, nowhere else in the world.

Building on these findings, we sought to test the hypothesis of a Gondwanan origin of ectomycorrhizal symbiosis in Madagascar. We focused on three ectomycorrhizal families—Amanitaceae, Boletaceae, and Russulaceae—and used a molecular dating approach to assess their arrival on the island. While the results varied, our analyses suggested that all Malagasy ectomycorrhizal species arrived via long-distance dispersal, well after the separation of the India–Madagascar landmass (88 million years ago).

Almost a year after our study was published in BIOTROPICA, I had the opportunity to conduct my own fieldwork in Madagascar. With the support of the Bentham–Moxon Trust and the Emily Holmes Memorial Scholarships, I was able to conduct fieldwork in Madagascar with my now PhD supervisor Laura M. Suz, with Malagasy mycologist Anna B. Ralaiveloarisoa, along with Spanish mycologists Rodrigo Márquez-Sanz, Ibai Olariaga, and Sergio Pérez-Gorjón. During the 2 weeks of fieldwork, we collected close to 700 fungal sporocarps, as well as 120 root samples. This massive amount of data will help us to not only describe new fungal species but also start understanding patterns of distribution, evolution, and diversity of the Funga of Madagascar. Additionally, these data will refine the findings from our previous study and may reveal patterns of endemism in other fungal guilds, such as saprotrophic fungi.

Madagascar's fungal diversity is under increasing threat from deforestation, fires, and large-scale mining operations. Time is critical if we are to document and conserve this unique mycobiota. Sustained funding and support for taxonomic research on the island are essential to achieving this goal before these species—and the ecosystems they support—are lost (Figures 3-5).

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来源期刊
Biotropica
Biotropica 环境科学-生态学
CiteScore
4.10
自引率
9.50%
发文量
122
审稿时长
8-16 weeks
期刊介绍: Ranked by the ISI index, Biotropica is a highly regarded source of original research on the ecology, conservation and management of all tropical ecosystems, and on the evolution, behavior, and population biology of tropical organisms. Published on behalf of the Association of Tropical Biology and Conservation, the journal''s Special Issues and Special Sections quickly become indispensable references for researchers in the field. Biotropica publishes timely Papers, Reviews, Commentaries, and Insights. Commentaries generate thought-provoking ideas that frequently initiate fruitful debate and discussion, while Reviews provide authoritative and analytical overviews of topics of current conservation or ecological importance. The newly instituted category Insights replaces Short Communications.
期刊最新文献
Issue Information 2024 Julie S Denslow & Peter Ashton Prizes for the outstanding articles published in Biotropica Interspecific interactions among major carnivores in Panna Tiger Reserve: A multispecies occupancy approach Diversity and abundance of large old trees in Hainan Island: Spatial analysis and environmental correlations Reduction in mutualistic ant aggressive behavior upon sugar supplementation
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