Early spring snowmelt and summer droughts strongly impair the resilience of bacterial community and N cycling functions in a subalpine grassland ecosystem

Hafeez, Farhan; Clément, Jean‐Christophe; Bernard, Lionel; Poly, Franck; Pommier, Thomas

doi:10.1111/oik.09836

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Cited by 5 publications

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(128 reference statements)

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Unraveling the impact of human perturbation on nitrogen cycling in terrestrial ecosystems of lower Himalaya, Pakistan

Zaman,

Asad,

Irshad

et al. 2023

Environ Monit Assess

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Unraveling the impact of human perturbation on nitrogen cycling in terrestrial ecosystems of lower Himalaya, Pakistan

Zaman,

Asad,

Irshad

et al. 2023

Environ Monit Assess

View full text Add to dashboard Cite

Effects of drought stress on soil nitrogen cycling

Gholami,

Karami,

Zare Guildehi

et al. 2025

Sustainable Agriculture Under Drought Stress

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Bacterial denitrification drives elevated N ₂ O emissions in arid southern California drylands

Krichels,

Jenerette,

Shulman

et al. 2023

Sci. Adv.

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Soils are the largest source of atmospheric nitrous oxide (N 2 O), a powerful greenhouse gas. Dry soils rarely harbor anoxic conditions to favor denitrification, the predominant N 2 O-producing process, yet, among the largest N 2 O emissions have been measured after wetting summer-dry desert soils, raising the question: Can denitrifiers endure extreme drought and produce N 2 O immediately after rainfall? Using isotopic and molecular approaches in a California desert, we found that denitrifiers produced N 2 O within 15 minutes of wetting dry soils (site preference = 12.8 ± 3.92 per mil, δ 15 N bulk = 18.6 ± 11.1 per mil). Consistent with this finding, we detected nitrate-reducing transcripts in dry soils and found that inhibiting microbial activity decreased N 2 O emissions by 59%. Our results suggest that despite extreme environmental conditions—months without precipitation, soil temperatures of ≥40°C, and gravimetric soil water content of <1%—bacterial denitrifiers can account for most of the N 2 O emitted when dry soils are wetted.

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Early spring snowmelt and summer droughts strongly impair the resilience of bacterial community and N cycling functions in a subalpine grassland ecosystem

Cited by 5 publications

References 80 publications

Unraveling the impact of human perturbation on nitrogen cycling in terrestrial ecosystems of lower Himalaya, Pakistan

Unraveling the impact of human perturbation on nitrogen cycling in terrestrial ecosystems of lower Himalaya, Pakistan

Effects of drought stress on soil nitrogen cycling

Bacterial denitrification drives elevated N ₂ O emissions in arid southern California drylands

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Early spring snowmelt and summer droughts strongly impair the resilience of bacterial community and N cycling functions in a subalpine grassland ecosystem

Cited by 5 publications

References 80 publications

Unraveling the impact of human perturbation on nitrogen cycling in terrestrial ecosystems of lower Himalaya, Pakistan

Unraveling the impact of human perturbation on nitrogen cycling in terrestrial ecosystems of lower Himalaya, Pakistan

Effects of drought stress on soil nitrogen cycling

Bacterial denitrification drives elevated N 2 O emissions in arid southern California drylands

Contact Info

Product

Resources

About

Bacterial denitrification drives elevated N ₂ O emissions in arid southern California drylands