A roadmap for sampling and scaling biological nitrogen fixation in terrestrial ecosystems

Soper, Fiona M.; Taylor, Benton N.; Winbourne, Joy B.; Wong, Michelle Y.; Dynarski, Katherine A.; Reis, Carla Roberta Gonçalves; Peoples, Mark B.; Cleveland, Cory C.; Reed, Sasha C.; Menge, Duncan N. L.; Perakis, Steven S.

doi:10.1111/2041-210x.13586

Cited by 25 publications

(22 citation statements)

References 94 publications

(162 reference statements)

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“…If the plant has sufficient C reserves to maintain the increased rhizobia mutualism, this could increase the amount of plant available N for growth. This was contrary to what was predicted as we believed that the movement of rhizobia would be impinged by a lack of water (Fall et al, 2011;Swaine et al, 2007) and highlights remaining uncertainties to understanding N2fixation (Soper et al, 2021).…”

Section: Discussioncontrasting

confidence: 94%

Nodulation Alleviates Water Stress in Vachellia Sieberiana

Telford¹,

Stevens²,

Midgley³

et al. 2021

Preprint

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Species in the genus Vachellia (Fabaceae) have a global tropical and sub-tropical distribution. Numerous Vachellia species are currently observed to be expanding their indigenous ranges and increasing in dominance globally, suggesting an overarching driver. Most Vachellia species enhance nitrogen uptake mutualistically via specialized root nodule structures. Nodules contain N2-fixing rhizobia that consume host supplied carbon to catalyse atmospheric N2 into a plant useable form, a key element in plant growth. The rhizobial mutualism of some Vachellia species may be vital to understanding changing patterns of ecological success observed across the savanna precipitation gradient. Here, we investigated how the seedling root development and physiology of two dominant savanna woody species, the arid-adapted Vachellia erioloba and the mesic-adapted Vachellia sieberiana, responded to simulated drought events. Seedlings of both species were grown at 4%, 8% and 16% soil moisture content (SMC) for four months. Seedling growth and allometry of arid-adapted V. erioloba was unresponsive to water stress treatments, and no nodulation was observed, reflecting a fixed higher relative investment in belowground biomass. In contrast, V. sieberiana roots were nodulated, but developed the highest nodule biomass and growth rate when grown at the lowest soil moisture (4% SMC). These patterns suggest that effective life history strategies for the arid-30 adapted species precludes the need for rhizobial mutualism, possibly due to more “open” N cycling and lower competitive interactions in arid systems, while the more “closed” N cycling in mesic savannas, and higher competitive stress, may favour nodulation, especially under low water supply that limits root access to soil nitrogen, and signals a more competitive environment and an advantage from N2-fixing.

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Section: Discussioncontrasting

confidence: 94%

Nodulation Alleviates Water Stress in Vachellia Sieberiana

Telford¹,

Stevens²,

Midgley³

et al. 2021

Preprint

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“…For an accurate conversion from measured ethylene production to nitrogen fixation in litter samples, we used a conversion factor calculated using 15 N 2 calibrations performed in 2017 at the same time, location, and under comparable conditions as the ARA incubations of that year. Such an independently calibrated conversion factor is more accurate than using a theoretical conversion factor (Soper, Taylor, et al., 2021). However, because the ARA:BNF conversion factor can change over time (Saiz et al., 2019), mainly through differences in physical conditions such as, for example, water content (Liengen, 1999), the conversion factors would have been even more accurate when calibrated at each sampling time point, instead of only once.…”

Section: Discussionmentioning

confidence: 99%

Impact of Nutrient Additions on Free‐Living Nitrogen Fixation in Litter and Soil of Two French‐Guianese Lowland Tropical Forests

et al. 2021

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Biological nitrogen (N) fixation (BNF) is a major natural source of new N to unmanaged terrestrial ecosystems worldwide (Cleveland et al., 1999;Reed et al., 2011;Vitousek et al., 2013) and in tropical evergreen forests, N input through free-living BNF has been found to vary between 0.1 and 60 kg N ha −1 yr −1 (Reed et al., 2011). During BNF, inert dinitrogen (N 2 ) is reduced to ammonia by N 2 fixing microorganisms,

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“…If a net positive total N balance is calculated to occur between two points in time, then the N gain this is attributed to inputs of fixed N 2 Can potentially be applied to experiments and farmers’ fields N outputs through various loss processes are difficult and complex to quantify and often rely on assumptions rather than actual measurements Quantification of some N inputs (e.g. atmospheric deposition of N) can be challenging Quantification of changes in soil N pool is subject to large errors, substantial inputs from BNF are necessary to reliably quantify any increase in soil N As the method relies on many independent and unrelated measurements, each made with differing degrees of accuracy, the confidence in the final estimate of BNF can be low Use is limited to long-term studies for both non-symbiotic and symbitoic N 2 -fixing systems a Adapted and updated from information provided by Unkvoich et al (2008); Peoples et al (2009b) ; Chalk et al (2017) ; Soper et al (2021) . …”

Section: Estimates Of Bnfmentioning

confidence: 99%

“… a Adapted and updated from information provided by Unkvoich et al (2008); Peoples et al (2009b) ; Chalk et al (2017) ; Soper et al (2021) . …”

Section: Estimates Of Bnfmentioning

confidence: 99%

“…All these different approaches are technically challenging with their own unique strengths and limitations, and each are subject to specific potential sources of error when being applied to either symbiotic ( Minchin et al, 1983 , Giller, 2001 , Unkovich et al, 2008 , Peoples et al, 2009b , Chalk et al, 2016 ), or non-symbiotic systems ( Boddey, 1987 , James, 2000 , Santi et al, 2013 , Bellenger et al, 2014 , Unkovich et al, 2020 , Soper et al, 2021 ; Table 6 ). Consequently, putative evidence of BNF, even by nodulating legumes, should ideally not rely solely upon the application of a single measurement technique.…”

Section: Estimates Of Bnfmentioning

confidence: 99%

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