2021
DOI: 10.1111/1365-2745.13610
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Evidence for a fungal loop in shrublands

Abstract: Dryland communities may mitigate the loss of limited resources by exchanging nutrients through subterranean fungal connections, termed fungal loops. In arid grasslands, fungal loops can influence community composition and primary productivity, yet their ecological significance across dryland systems remains unexplored. We investigated the functional role of fungal loops in nutrient translocation in a North American shrubland ecosystem. We traced the movement of 15N from moss‐dominated biocrusts to the dominant… Show more

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Cited by 10 publications
(7 citation statements)
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References 188 publications
(268 reference statements)
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“…Dryland ecosystems are characterized by islands of fertility, where SOM, microbial ecoenzymatic activities, and nutrient availability are higher under and adjacent to plants compared to areas of unvegetated soil (Kieft et al., 1998; Ladwig et al., 2015; Schlesinger et al., 1990; Stursova et al., 2006). There is also some evidence that fungal hyphae can transport nitrogen fixed by biological soil crusts to plants located up to 1 m away (Carvajal Janke & Coe, 2021; Green et al., 2008). Prior to the summer monsoon we installed three soil collars (25.4 cm wide and 15 cm deep) per plot, each positioned around a randomly selected tussock of black grama to prevent plant roots and soil microbes from acquiring outside resources as well as to limit potential nitrogen losses through overland flow.…”
Section: Methodsmentioning
confidence: 99%
“…Dryland ecosystems are characterized by islands of fertility, where SOM, microbial ecoenzymatic activities, and nutrient availability are higher under and adjacent to plants compared to areas of unvegetated soil (Kieft et al., 1998; Ladwig et al., 2015; Schlesinger et al., 1990; Stursova et al., 2006). There is also some evidence that fungal hyphae can transport nitrogen fixed by biological soil crusts to plants located up to 1 m away (Carvajal Janke & Coe, 2021; Green et al., 2008). Prior to the summer monsoon we installed three soil collars (25.4 cm wide and 15 cm deep) per plot, each positioned around a randomly selected tussock of black grama to prevent plant roots and soil microbes from acquiring outside resources as well as to limit potential nitrogen losses through overland flow.…”
Section: Methodsmentioning
confidence: 99%
“…(3) Do plant species differ in the rate or form of short-term N uptake? We expected that individuals of all three species in this study would ultimately transport similar amounts of 15 N to leaves within 12 -48 h based on evidence from prior dryland 15 N tracer experiments that reported recovery of NH4 + , NO3 -, and amino acid-N forms in leaves of similar perennial grass and woody shrub/subshrub species < 72 h following application of water and N (Aanderud and Bledsoe 2009;BassiriRad et al 1999;Carvajal Janke and Coe 2021;Ivans et al 2003;James et al 2008;Zhuang et al 2015;Zhuang et al 2020). Finally, much of the key background literature comparing inorganic and organic N uptake among different plant functional types comes from studies performed in non-dryland ecosystems such as temperate grasslands (Bardgett et al 2003;Näsholm et al 2000;Näsholm et al 2009;Weigelt et al 2003;Wilkinson et al 2015) and tundra ecosystems (Ashton et al 2008;Ashton et al 2010;McKane et al 2002;Miller and Bowman 2003;Näsholm et al 2009).…”
Section: Introductionmentioning
confidence: 94%
“…Unfortunately, there is still little known about the role of cyanosymbiosis in the nutrient status of moss-dominated biocrusts and how it interacts with soil N availability ( Coe et al , 2014 ). A recent study suggests that all these ways of acquiring N allow mosses to have enough N reserves even to transfer some of them to vascular plants through fungal loops without compromising their survival ( Carvajal Janke and Coe, 2021 ). Mosses can also enrich the soil through direct N leakage during the cyanobacterial N fixation, the decomposition of moss tissues ( Evans and Lange, 2001 ), or the phenomenon of ‘bryotic pulses’ ( Slate et al , 2019 ; Fig.…”
Section: Biocrust-forming Mosses As Ecosystem Engineers In Drylandsmentioning
confidence: 99%