Nitrogen Fixation and Leaching of Biological Soil Crust Communities in Mesic Temperate Soils

Veluci, Roberta M.; Neher, Deborah A.; Weicht, Thomas R.

doi:10.1007/s00248-005-0121-3

Cited by 75 publications

(64 citation statements)

References 29 publications

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“…As the primary source of N input in many arid and semi-arid ecosystems, BSCs make an important contribution to the ecosystem N budget. BSCs play an essential role in soil stability and nutrient cycling and contribute significantly to soil fertility (Eldridge, 1998;Issa et al, 2001;Issa et al, 2007;Hu et al, 2003;Veluci et al, 2006). Soil surface structure is altered by BSCs through the creation of a rough surface micro topography, which alters the movement and retention of nutrients by diminishing the impact of surface runoff and wind (Veluci et al, 2006;Housman et al, 2007).…”

Section: Biological Soil Crustsmentioning

confidence: 99%

“…BSCs play an essential role in soil stability and nutrient cycling and contribute significantly to soil fertility (Eldridge, 1998;Issa et al, 2001;Issa et al, 2007;Hu et al, 2003;Veluci et al, 2006). Soil surface structure is altered by BSCs through the creation of a rough surface micro topography, which alters the movement and retention of nutrients by diminishing the impact of surface runoff and wind (Veluci et al, 2006;Housman et al, 2007). Several studies have found BSCs to have natural abundance 15 N values indicative of fixation of atmospheric sources, higher total and mineralizable N and higher dissolved nitrogenous compounds in porewater compared with adjacent soils (Evans & Ehleringer, 1993;Belnap, 1996;Evans & Belnap, 1999;Smith et al, 2002;Johnson et al, 2005;Marsh et al, 2006).…”

Section: Biological Soil Crustsmentioning

confidence: 99%

“…Mat-forming lichens in polar ecosystems can retain >80% of NH/ and NO3" deposited in summer rainfall (Crittenden, 1983;. Similarly, atmospheric deposition must pass through BSCs before reaching the underlying soil; therefore crusts may regulate the capture and release of atmospheric N (Hawkes, 2003;Veluci et al, 2006 (Tearle, 1987;Coxson et al, 1992;Wilson & Coxson, 1999). Extracellular polymers secreted from organisms within BSCs can represent a major source of C inputs.…”

Section: Release Of N From N 2 -Fixing Organismsmentioning

confidence: 99%

“…Several studies have suggested that N-enriched leachate from terricolous cyanolichens contribute labile N to the soil on both a localized scale and can act as a significant N source on a landscape scale (Gunther, 1989;Knowles et al, 2006;Veluci et al, 2006). In environments with N limitation the inputs from N2-fixing lichens can create temporal and spatial variability in the supply of labile N and in turn variation in soil microbial communities (Crittenden, 1983;Millbank & Olsen, 1986;Knowles et al, 2006).…”

Section: Lichensmentioning

confidence: 99%

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Nitrogen fixation by associative cyanobacteria in the Canadian Arctic.

Stewart¹

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Section: Biological Soil Crustsmentioning

confidence: 99%

Section: Biological Soil Crustsmentioning

confidence: 99%

Section: Release Of N From N 2 -Fixing Organismsmentioning

confidence: 99%

Section: Lichensmentioning

confidence: 99%

See 2 more Smart Citations

Nitrogen fixation by associative cyanobacteria in the Canadian Arctic.

Stewart¹

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“…They can have important impacts on ecological function through physiological or physical processes. For example, BSCs can bind soil particles to protect the surface soil from wind and water erosion (Belnap and Gardner 1993;Eldridge and Leys 2002;Veluci et al 2006;Mazor et al 1996); fix nitrogen (N) and carbon (C) to increase soil nutrients and C storage (Austin et al 2004;Hawkes 2003;Evans and Ehleringer 1993;Lange et al 1994); modify the balance between water run-off and infiltration (Kidron and Yair 1997;Eldridge and Greene 1994); and influence soil roughness. These changes can create a suitable primitive habitat for vascular plant growth, which influence on seed germination and establishment.…”

Section: Introductionmentioning

confidence: 99%

Alterations to biological soil crusts with alpine meadow retrogressive succession affect seeds germination of three plant species

Jingzheng

et al. 2016

J. Mt. Sci.

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Estimating impacts of lichens and bryophytes on global biogeochemical cycles

Porada

Weber

Elbert

et al. 2014

Global Biogeochemical Cycles

124

107

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Lichens and bryophytes may significantly affect global biogeochemical cycles by fixation of nitrogen and biotic enhancement of surface weathering rates. Most of the studies suggesting these effects, however, are either conceptual or rely on upscaling of regional estimates to obtain global numbers. Here we use a different method, based on estimates of net carbon uptake, to quantify the impacts of lichens and bryophytes on biogeochemical cycles at the global scale. We focus on three processes, namely, nitrogen fixation, phosphorus uptake, and chemical weathering. Our estimates have the form of potential rates, which means that we quantify the amount of nitrogen and phosphorus needed by the organisms to build up biomass, also accounting for resorption and leaching of nutrients. Subsequently, we use potential phosphorus uptake on bare ground to estimate chemical weathering by the organisms, assuming that they release weathering agents to obtain phosphorus. The predicted requirement for nitrogen ranges from 3.5 to 34 Tg yr −1 and for phosphorus it ranges from 0.46 to 4.6 Tg yr −1 . Estimates of chemical weathering are between 0.058 and 1.1 km 3 yr −1 of rock. These values seem to have a realistic order of magnitude, and they support the notion that lichens and bryophytes have the potential to play an important role for biogeochemical cycles.

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Nitrogen Fixation and Leaching of Biological Soil Crust Communities in Mesic Temperate Soils

Cited by 75 publications

References 29 publications

Nitrogen fixation by associative cyanobacteria in the Canadian Arctic.

Nitrogen fixation by associative cyanobacteria in the Canadian Arctic.

Alterations to biological soil crusts with alpine meadow retrogressive succession affect seeds germination of three plant species

Estimating impacts of lichens and bryophytes on global biogeochemical cycles

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