Exploring the Role of Cryptic Nitrogen Fixers in Terrestrial Ecosystems: A Frontier in Nitrogen Cycling Research

Cleveland, Cory C.; Reis, Carla R. G.; Perakis, Steven S.; Dynarski, Katherine A.; Batterman, Sarah A.; Crews, Timothy E.; Gei, Maga; Gundale, Michael J.; Menge, Duncan N. L.; Peoples, Mark B.; Reed, Sasha C.; Salmon, Verity G.; Soper, Fiona M.; Taylor, Benton N.; Turner, Monica G.; Wurzburger, Nina

doi:10.1007/s10021-022-00804-2

Forskningsartikel2022Vetenskapligt granskadÖppen tillgång

Exploring the Role of Cryptic Nitrogen Fixers in Terrestrial Ecosystems: A Frontier in Nitrogen Cycling Research

Cleveland, Cory C.; Reis, Carla R. G.; Perakis, Steven S.; Dynarski, Katherine A.; Batterman, Sarah A.; Crews, Timothy E.; Gei, Maga; Gundale, Michael J.; Menge, Duncan N. L.; Peoples, Mark B.; Reed, Sasha C.; Salmon, Verity G.; Soper, Fiona M.; Taylor, Benton N.; Turner, Monica G.; Wurzburger, Nina

Sammanfattning

Biological nitrogen fixation represents the largest natural flux of new nitrogen (N) into terrestrial ecosystems, providing a critical N source to support net primary productivity of both natural and agricultural systems. When they are common, symbiotic associations between plants and bacteria can add more than 100 kg N ha(-1) y(-1) to ecosystems. Yet, these associations are uncommon in many terrestrial ecosystems. In most cases, N inputs derive from more cryptic sources, including mutualistic and/or free-living microorganisms in soil, plant litter, decomposing roots and wood, lichens, insects, and mosses, among others. Unfortunately, large gaps remain in the understanding of cryptic N fixation. We conducted a literature review to explore rates, patterns, and controls of cryptic N fixation in both unmanaged and agricultural ecosystems. Our analysis indicates that, as is common with N fixation, rates are highly variable across most cryptic niches, with N inputs in any particular cryptic niche ranging from near zero to more than 20 kg ha(-1) y(-1). Such large variation underscores the need for more comprehensive measurements of N fixation by organisms not in symbiotic relationships with vascular plants in terrestrial ecosystems, as well as identifying the factors that govern cryptic N fixation rates. We highlight several challenges, opportunities, and priorities in this important research area, and we propose a conceptual model that posits an interacting hierarchy of biophysical and biogeochemical controls over N fixation that should generate valuable new hypotheses and research.

Nyckelord

agriculture; asymbiotic; free-living; global change; N-2 fixation; nitrogen cycle; symbiotic; terrestrial ecosystems

Publicerad i

Ecosystems
2022, Volym: 25, nummer: 8, sidor: 1653-1669
Utgivare: SPRINGER

SLU författare

Gundale, Michael
- Institutionen för skogens ekologi och skötsel, Sveriges lantbruksuniversitet

Associerade SLU-program

SLU Nätverk växtskydd
SLU Skogsskadecentrum

UKÄ forskningsämne

Ekologi

Publikationens identifierare

DOI: https://doi.org/10.1007/s10021-022-00804-2

Permanent länk till denna sida (URI)

https://res.slu.se/id/publ/120368