Aurelien Saghai

Overview

Explore the profile of Aurelien Saghai including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 18

Citations 201

Followers 0

Related Specialties

Microbiology

Environmental Health

Biology

Top 10 Co-Authors

Sara Hallin

Purificacion Lopez-Garcia

Sana Romdhane

David Moreira

Chantal Herzog

Marcel G A van der Heijden

Anna Edlinger

Florine Degrune

Laurent Philippot

Gina Garland

Published In

Environ Microbiol

Nat Ecol Evol

Front Microbiol

Environ Microbiome

Microbiol Spectr

Affiliations

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Recent Articles

The impact of fungi on soil protist communities in European cereal croplands

Degrune F, Dumack K, Ryo M, Garland G, Romdhane S, Saghai A, et al.

Environ Microbiol . 2024 Jul; 26(7):e16673. PMID: 39001572

Protists, a crucial part of the soil food web, are increasingly acknowledged as significant influencers of nutrient cycling and plant performance in farmlands. While topographical and climatic factors are often...

Phylogenetics and environmental distribution of nitric oxide-forming nitrite reductases reveal their distinct functional and ecological roles

Pold G, Bonilla-Rosso G, Saghai A, Strous M, Jones C, Hallin S

ISME Commun . 2024 Apr; 4(1):ycae020. PMID: 38584645

The two evolutionarily unrelated nitric oxide-producing nitrite reductases, NirK and NirS, are best known for their redundant role in denitrification. They are also often found in organisms that do not...

Diversity and ecology of NrfA-dependent ammonifying microorganisms

Saghai A, Hallin S

Trends Microbiol . 2024 Mar; 32(6):602-613. PMID: 38462391

Nitrate ammonifiers are a taxonomically diverse group of microorganisms that reduce nitrate to ammonium, which is released, and thereby contribute to the retention of nitrogen in ecosystems. Despite their importance...

Phyloecology of nitrate ammonifiers and their importance relative to denitrifiers in global terrestrial biomes

Saghai A, Pold G, Jones C, Hallin S

Nat Commun . 2023 Dec; 14(1):8249. PMID: 38086813

Nitrate ammonification is important for soil nitrogen retention. However, the ecology of ammonifiers and their prevalence compared with denitrifiers, being competitors for nitrate, are overlooked. Here, we screen 1 million...

Distribution and Environmental Drivers of Fungal Denitrifiers in Global Soils

Bosch Y, Pold G, Saghai A, Karlsson M, Jones C, Hallin S

Microbiol Spectr . 2023 May; 11(3):e0006123. PMID: 37222601

The microbial process of denitrification is the primary source of the greenhouse gas nitrous oxide (NO) from terrestrial ecosystems. Fungal denitrifiers, unlike many bacteria, lack the NO reductase, and thereby...

Crop cover is more important than rotational diversity for soil multifunctionality and cereal yields in European cropping systems

Garland G, Edlinger A, Banerjee S, Degrune F, Garcia-Palacios P, Pescador D, et al.

Nat Food . 2023 Apr; 2(1):28-37. PMID: 37117662

In natural ecosystems, positive effects of plant diversity on ecosystem functioning have been widely observed, yet whether this is true in cropping systems remains unclear. Here we assessed the impact...

The impact of agricultural management on soil aggregation and carbon storage is regulated by climatic thresholds across a 3000 km European gradient

Edlinger A, Garland G, Banerjee S, Degrune F, Garcia-Palacios P, Herzog C, et al.

Glob Chang Biol . 2023 Mar; 29(11):3177-3192. PMID: 36897740

Organic carbon and aggregate stability are key features of soil quality and are important to consider when evaluating the potential of agricultural soils as carbon sinks. However, we lack a...

Agricultural management and pesticide use reduce the functioning of beneficial plant symbionts

Edlinger A, Garland G, Hartman K, Banerjee S, Degrune F, Garcia-Palacios P, et al.

Nat Ecol Evol . 2022 Jul; 6(8):1145-1154. PMID: 35798840

Phosphorus (P) acquisition is key for plant growth. Arbuscular mycorrhizal fungi (AMF) help plants acquire P from soil. Understanding which factors drive AMF-supported nutrient uptake is essential to develop more...

Land-use intensification differentially affects bacterial, fungal and protist communities and decreases microbiome network complexity

Romdhane S, Spor A, Banerjee S, Breuil M, Bru D, Chabbi A, et al.

Environ Microbiome . 2022 Jan; 17(1):1. PMID: 34991714

Background: Soil microbial communities are major drivers of cycling of soil nutrients that sustain plant growth and productivity. Yet, a holistic understanding of the impact of land-use intensification on the...

10.

Diversity of archaea and niche preferences among putative ammonia-oxidizing Nitrososphaeria dominating across European arable soils

Saghai A, Banjeree S, Degrune F, Edlinger A, Garcia-Palacios P, Garland G, et al.

Environ Microbiol . 2021 Nov; 24(1):341-356. PMID: 34796612

Archaeal communities in arable soils are dominated by Nitrososphaeria, a class within Thaumarchaeota comprising all known ammonia-oxidizing archaea (AOA). AOA are key players in the nitrogen cycle and defining their...