Systematic reduction of natural enemies and competition across variable precipitation approximates buffelgrass invasiveness (Cenchrus ciliaris) in its native range

被引:1
作者
Rhodes, Aaron C. [1 ]
Plowes, Robert M. [1 ]
Bowman, Elizabeth A. [1 ,2 ]
Gaitho, Aimee [3 ,4 ]
Ng'Iru, Ivy [5 ]
Martins, Dino J. [4 ]
Gilbert, Lawrence E. [1 ]
机构
[1] Univ Texas Austin, Brackenridge Field Lab, Room 109,2907 Lake Austin Blvd, Austin, TX 78712 USA
[2] Hiro Technol Inc, Austin, TX USA
[3] Mpala Res Ctr Nanyuki, Nanyuki, Kenya
[4] Turkana Basin Inst, Nairobi, Kenya
[5] Cardiff Univ, UK Ctr Ecol & Hydrol, Wallingford, England
关键词
insect herbivory; invasiveness; natural enemies; pathogens; plant competition; ungulate herbivory; GRASS MEGATHYRSUS-MAXIMUS; INDIAN-OCEAN DIPOLE; PLANT-COMMUNITIES; CLIMATE-CHANGE; RESOURCE AVAILABILITY; BIOLOGICAL-CONTROL; INVASION; RELEASE; FUNGAL; DIVERSITY;
D O I
10.1002/ece3.11350
中图分类号
Q14 [生态学(生物生态学)];
学科分类号
071012 ; 0713 ;
摘要
Invasive grasses cause devastating losses to biodiversity and ecosystem function directly and indirectly by altering ecosystem processes. Escape from natural enemies, plant-plant competition, and variable resource availability provide frameworks for understanding invasion. However, we lack a clear understanding of how natural stressors interact in their native range to regulate invasiveness. In this study, we reduced diverse guilds of natural enemies and plant competitors of the highly invasive buffelgrass across a precipitation gradient throughout major climatic shifts in Laikipia, Kenya. To do this, we used a long-term ungulate exclosure experiment design across a precipitation gradient with nested treatments that (1) reduced plant competition through clipping, (2) reduced insects through systemic insecticide, and (3) reduced fungal associates through fungicide application. Additionally, we measured the interaction of ungulates on two stem-boring insect species feeding on buffelgrass. Finally, we measured a multiyear smut fungus outbreak. Our findings suggest that buffelgrass exhibits invasive qualities when released from a diverse group of natural stressors in its native range. We show natural enemies interact with precipitation to alter buffelgrass productivity patterns. In addition, interspecific plant competition decreased the basal area of buffelgrass, suggesting that biotic resistance mediates buffelgrass dominance in the home range. Surprisingly, systemic insecticides and fungicides did not impact buffelgrass production or reproduction, perhaps because other guilds filled the niche space in these highly diverse systems. For example, in the absence of ungulates, we showed an increase in host-specific stem-galling insects, where these insects compensated for reduced ungulate use. Finally, we documented a smut outbreak in 2020 and 2021, corresponding to highly variable precipitation patterns caused by a shifting Indian Ocean Dipole. In conclusion, we observed how reducing natural enemies and competitors and certain interactions increased properties related to buffelgrass invasiveness.
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页数:18
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