Random species loss underestimates dilution effects of host diversity on foliar fungal diseases under fertilization

With increasing attention being paid to the consequences of global biodiversity losses, several recent studies have demonstrated that realistic species losses can have larger impacts than random species losses on community productivity and resilience. However, little is known about the effects of th...

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Bibliographic Details
Published in:Ecology and evolution 2018-02, Vol.8 (3), p.1705-1713
Main Authors: Liu, Xiang, Chen, Fei, Lyu, Shengman, Sun, Dexin, Zhou, Shurong
Format: Article
Language:English
Subjects:
Alpine environments
alpine meadows
Biodiversity
Biodiversity loss
biodiversity–disease relationships
Dilution
Disease
experimental warming
Fertilization
Flowers & plants
Fungal diseases
Fungi
Herbivores
Infectious diseases
nitrogen addition
nonrandom diversity loss
Original Research
Plant diseases
Plant diversity
Qinghai‐Tibetan Plateau
Simulation
Species diversity
Species extinction
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Summary:With increasing attention being paid to the consequences of global biodiversity losses, several recent studies have demonstrated that realistic species losses can have larger impacts than random species losses on community productivity and resilience. However, little is known about the effects of the order in which species are lost on biodiversity–disease relationships. Using a multiyear nitrogen addition and artificial warming experiment in natural assemblages of alpine meadow vegetation on the Qinghai‐Tibetan Plateau, we inferred the sequence of plant species losses under fertilization/warming. Then the sequence of species losses under fertilization/warming was used to simulate the species loss orders (both realistic and random) in an adjacently novel removal experiment manipulating plot‐level plant diversity. We explicitly compared the effect sizes of random versus realistic species losses simulated from fertilization/warming on plant foliar fungal diseases. We found that realistic species losses simulated from fertilization had greater effects than random losses on fungal diseases, and that species identity drove the diversity–disease relationship. Moreover, the plant species most prone to foliar fungal diseases were also the least vulnerable to extinction under fertilization, demonstrating the importance of protecting low competence species (the ability to maintain and transmit fungal infections was low) to impede the spread of infectious disease. In contrast, there was no difference between random and realistic species loss scenarios simulated from experimental warming (or the combination of warming and fertilization) on the diversity–disease relationship, indicating that the functional consequences of species losses may vary under different drivers. Most manipulative biodiversity–ecosystem function (BEF) experiments use randomly constructed species assemblages. We took a novel approach to explicitly compare dilution effects on foliar fungal infections for random versus realistic species losses simulated from nitrogen addition and warming treatments. We found that realistic species losses under fertilization had greater effects than random losses on fungal diseases.
ISSN:2045-7758
2045-7758
DOI:10.1002/ece3.3749