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Дата внесения публикации в базу 08-11-2021 11:34 не попадает в период стимулирования 01-06-2023 – 31-05-2024
Количество соавторов публикации - 14
Публикации в изданиях, индексируемых в Web of Science Core Collection: Q1, K=20
  • Ануфриева Е. В.: количество аффилиаций - 1, вклад в КБПР публикации:
    формула: K/(Nсоавторов*Nаффил) = 20/(14*1) = 1.429
  • Шадрин Н. В.: количество аффилиаций - 1, вклад в КБПР публикации:
    формула: K/(Nсоавторов*Nаффил) = 20/(14*1) = 1.429
Статья в периодическом издании

Salt to conserve: a review on the ecology and preservation of hypersaline ecosystems

WoS 12.820/Q1 SCOPUS 4.993/Q1
DOI https://doi.org/10.1111/brv.12780
Язык Английский
Журнал Biological Reviews

ISSN: 1464-7931; Онлайн ISSN: 1469-185X
Год 2021
Выходные данные Том: 96, Выпуск: 6, Страницы: 2828-2850
Авторы
  1. Saccò M.
    Trace and Environmental DNA (TrEnD) Lab, School of Molecular and Life Sciences, Curtin University, Australia (aus)
  2. White N. E.
    Trace and Environmental DNA (TrEnD) Lab, School of Molecular and Life Sciences, Curtin University, Australia (aus)
  3. Harrod C.
    Instituto de Ciencias Naturales Alexander von Humboldt, Universidad de Antofagasta, Chile (chl)
    Núcleo Milenio INVASAL, Chile (chl)
  4. Salazar G.
    Instituto de Ciencias Naturales Alexander von Humboldt, Universidad de Antofagasta, Chile (chl)
    Núcleo Milenio INVASAL, Chile (chl)
  5. Aguilar P.
    Núcleo Milenio INVASAL, Chile (chl)
    Laboratorio de Complejidad Microbiana y Ecología Funcional, Instituto Antofagasta, Universidad de Antofagasta, Chile (chl)
  6. Cubillos C. F.
    Laboratorio de Complejidad Microbiana y Ecología Funcional, Instituto Antofagasta, Universidad de Antofagasta, Chile (chl)
  7. Meredith K.
    Australian Nuclear Science and Technology Organisation (ANSTO), Australia (aus)
  8. Baxter B. K.
    Great Salt Lake Institute, Westminster College, Salt Lake City, U.S.A. (usa)
  9. Oren A.
    Department of Plant and Environmental Sciences, The Institute of Life Sciences, the Edmond J. Safra Campus, The Hebrew University of Jerusalem, Jerusalem, Israel (isr)
  10. Ануфриева Е. В. (Anufriieva E.)
  11. Шадрин Н. В. (Shadrin N.)
  12. Marambio-Alfaro Y.
    Instituto de Ciencias Naturales Alexander von Humboldt, Universidad de Antofagasta, Chile (chl)
  13. Bravo-Naranjo V.
    Facultad de Ciencias, Universidad de La Serena, Chile (chl)
  14. Allentoft M. E.
    Trace and Environmental DNA (TrEnD) Lab, School of Molecular and Life Sciences, Curtin University, Australia (aus)
    Lundbeck Foundation GeoGenetics Centre, GLOBE Institute, University of Copenhagen, Copenhagen, Denmark (dnk)
Даты Поступила в редакцию: 10.03.2021
После доработки 06.07.2021
Принята к публикации: 07.07.2021
Опубликована онлайн: 19.07.2021
Опубликована: 07.11.2021
Абстракт When it comes to the investigation of key ecosystems in the world, we often omit salt from the ecological recipe. In fact, despite occupying almost half of the volume of inland waters and providing crucial services to humanity and nature, inland saline ecosystems are often overlooked in discussions regarding the preservation of global aquatic resources of our planet. As a result, our knowledge of the biological and geochemical dynamics shaping these environments remains incomplete and we are hesitant in framing effective protective strategies against the increasing natural and anthropogenic threats faced by such habitats. Hypersaline lakes, water bodies where the concentration of salt exceeds 35 g/l, occur mainly in arid and semiarid areas resulting from hydrological imbalances triggering the accumulation of salts over time. Often considered the ‘exotic siblings’ within the family of inland waters, these ecosystems host some of the most extremophile communities worldwide and provide essential habitats for waterbirds and many other organisms in already water-stressed regions. These systems are often highlighted as natural laboratories, ideal for addressing central ecological questions due to their relatively low complexity and simple food web structures. However, recent studies on the biogeochemical mechanisms framing hypersaline communities have challenged this archetype, arguing that newly discovered highly diverse communities are characterised by specific trophic interactions shaped by high levels of specialisation. The main goal of this review is to explore our current understanding of the ecological dynamics of hypersaline ecosystems by addressing four main research questions: (i) why are hypersaline lakes unique from a biological and geochemical perspective; (ii) which biota inhabit these ecosystems and how have they adapted to the high salt conditions; (iii) how do we protect biodiversity from increasing natural and anthropogenic threats; and (iv) which scientific tools will help us preserve hypersaline ecosystems in the future? First, we focus on the ecological characterisation of hypersaline ecosystems, illustrate hydrogeochemical dynamics regulating such environments, and outline key ecoregions supporting hypersaline systems across the globe. Second, we depict the diversity and functional aspects of key taxa found in hypersaline lakes, from microorganisms to plants, invertebrates, waterbirds and upper trophic levels. Next, we describe ecosystem services and discuss possible conservation guidelines. Finally, we outline how cutting-edge technologies can provide new insights into the study of hypersaline ecology. Overall, this review sheds further light onto these understudied ecosystems, largely unrecognised as important sources of unique biological and functional diversity. We provide perspectives for key future research avenues, and advocate that the conservation of hypersaline lakes should not be taken with ‘a grain of salt’.
Ключевые слова: conservation, ecosystem services , energy flows, extremophile, food webs, functional ecology, nutrient flows, wetlands
Сведения о финансировании, указанные в публикации M.S., N.E.W. and M.E.A. are supported by the BHP Social Investment Fund, eDNA for Global Biodiversity (eDGES) programme. E.A. and N.S. worked for this study in the framework of the state assignments of the A.O. Kovalevsky Institute of Biology of the Southern Seas of RAS (Russia) (№ 121041500203-3). V.B.-N. thanks the support of the DIDULS-2020 program: Research on Sustainability and Natural Systems of central Chile of the Universidad de La Serena. C.H. is supported by Nucleo Milenio INVASAL funded by ANID – Millennium Science Initiative – NCN16_034.
URL https://onlinelibrary.wiley.com/doi/10.1111/brv.12780
Дополнительные сведения

Запись создана: 08-11-2021 11:34
Последнее изменение: 08-11-2021 11:41

Страница журнала в E-library
Библиографическая ссылка:
Saccò M., White N. E., Harrod C., Salazar G., Aguilar P., Cubillos C. F., Meredith K., Baxter B. K., Oren A., Anufriieva E., Shadrin N., Marambio-Alfaro Y., Bravo-Naranjo V., Allentoft M. E. Salt to conserve: a review on the ecology and preservation of hypersaline ecosystems // Biological Reviews. 2021. Vol. 96, iss. 6. P. 2828-2850. https://doi.org/10.1111/brv.12780
[WoS 12.820/Q1][SCOPUS 4.993/Q1]
Экспертное заключение: № 275, 2021
Индексация на момент включения в базу:
Web of Science
Статус
Да
Импакт-фактор/Квартиль(год)
12.820/Q1 (2020)
Идентификатор
000674325500001
SCOPUS
Статус
Да
Импакт-фактор/Квартиль(год)
4.993/Q1 (2020)
Идентификатор
2-s2.0-85110441731
РИНЦ
Статус
Нет
ID
EDN

В публикации указано госзадание:

№ 121041500203-3 «Изучение особенностей структуры и динамики экосистем соленых озер и лагун в условиях климатической изменчивости и антропогенной нагрузки для создания научных основ их рационального использования» (предыдущий номер АААА-А19-119100790153-3)