Resilience of soil microbial communities impacted by severe drought and high temperature in the context of Mediterranean heat waves

Bérard, Annette; Bouchet, T.; Sevenier, Ghislain; Pablo, Anne-Laure; Gros, Raphaël

doi:10.1016/j.ejsobi.2011.08.004

Cited by 101 publications

(62 citation statements)

References 43 publications

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“…These results are in agreement with those obtained by Bérard et al . (), who observed that after 21 days of drought the Gram+ population had not changed with regard the soil that had not been subjected to drought, possibly because they have more rigid cell walls, making them more resistant to drying processes (Uhlirova et al ., ).…”

Section: Discussionmentioning

confidence: 98%

Soil Biology Changes as a Consequence of Organic Amendments Subjected to a Severe Drought

et al. 2017

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Effect of severe drought events in combination with organic amendments (municipal solid waste, MSW, sheep manure, SM, and cow manure, CM) on soil dehydrogenase, urease, β‐glucosidase and phosphatase activities and microbial community by analyzing phospholipid fatty acids was studied under controlled laboratory conditions for one year. Two levels of irrigation were used: (1) watered soils, where the soils were maintained at 60% of their water holding capacity through the experiment, and (2) non‐watered soils, without irrigation through the experiment. The severe drought conditions negatively affected the soil enzymatic activities and total bacterial and fungal PLFA concentrations. The application of organic amendments to the soil subjected to severe drought increased soil water retention and encouraged the growth and activity of soil microbial populations. However, the chemical composition of the organic matter applied to the soil also strongly influenced soil moisture. In non‐watered soils and compared with the unamended soil, the dehydrogenase activity was 71 · 3%, 60 · 9% and 38 · 6% higher in the soil with SM, CM and MSW, respectively. Urease activity was 60 · 6%, 51 · 5% and 37% higher in the soil with SM, CM and MSW, respectively. β‐glucosidase and phosphatase activities had a similar trend. Water retention was higher when the organic wastes applied to the soils had a higher content of humic acids than fulvic acid contents. Copyright © 2016 John Wiley & Sons, Ltd.

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Section: Discussionmentioning

confidence: 98%

Soil Biology Changes as a Consequence of Organic Amendments Subjected to a Severe Drought

et al. 2017

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“…This enabled us to assess the catabolic diversity of the soil and microbial biomass via measurements SIR glucose (Anderson & Domsch ). The metabolic quotient qCO 2 was calculated as the ratio of BR to SIR glucose (Chapman et al ; Bérard et al ) to determine how efficiently microorganisms use available carbon in soil (Anderson & Domsch ). This quotient is considered a microbial eco‐physiological indicator.…”

Section: Methodsmentioning

confidence: 99%

Ecological restoration by soil transfer: impacts on restored soil profiles and topsoil functions

Bulot

Potard

Bureau

et al. 2016

Restoration Ecology

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A last resort means to restoring a severely degraded ecosystem can involve soil transfer, especially when destruction of an undegraded system has been previously independently planned. We measured the impact of different soil transfer treatments that varied in vertical and orderly reconstitution of the main soil horizons on the microbial activity and organic matter composition during restoration of a Haplic Cambisol in a steppe ecosystem. There were differences between the topsoil of the reference ecosystem and the soil transfer treatments in terms of physicochemical parameters and microbial activity, but this was not the case when topsoil was not replaced at the soil surface. Three years following restoration, the transferred topsoil treatment, where the three main soil layers were transferred, contained lower particulate organic matter content than the steppe reference soil, despite similarity in potential carbon mineralization. Soil profile descriptions revealed strong differences in overall organization between the transferred soil and the undisturbed steppe soil, particularly with respect to lower biological activity and a lack of connectivity between pedological horizons via the plant root systems and the earthworm activity in the transferred soil. This suggests that soil transfer conducted to retain soil horizons provides good results when the topsoil is transferred, but it may result in altered biological activity, profile morphology, and organic matter content compared with the reference system

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“…Another source of enzymes that may have supported the relatively high EAs we reported during peak drought may be via the release of enzymes upon cell death (Berard et al, 2011). Although the efficiency of extracellular enzymes increases with temperature (Koch et al, 2007), low moisture availability would likely limit enzyme and substrate diffusion (Allison, 2005;Bell et al, 2010).…”

Section: Comparison Of Soil Eas During and After The 2011 Drought/heamentioning

confidence: 99%

“…Studies on water manipulation alone (induced drought) have reported shifts in the microbial community (Berard et al, 2011). Drought induced a shift that favored fungal populations relative to bacterial populations (Bell et al, 2009) and warming treatments increased Acidobacteria and Crenarchaeota populations compared to control treatments (Sheik et al, 2011).…”

Section: Comparison Of Soil Eas During and After The 2011 Drought/heamentioning

confidence: 99%

Soil enzyme activities during the 2011 Texas record drought/heat wave and implications to biogeochemical cycling and organic matter dynamics

Acosta-Martínez

Moore‐Kucera

Cotton

et al. 2014

Applied Soil Ecology

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Resilience of soil microbial communities impacted by severe drought and high temperature in the context of Mediterranean heat waves

Cited by 101 publications

References 43 publications

Soil Biology Changes as a Consequence of Organic Amendments Subjected to a Severe Drought

Soil Biology Changes as a Consequence of Organic Amendments Subjected to a Severe Drought

Ecological restoration by soil transfer: impacts on restored soil profiles and topsoil functions

Soil enzyme activities during the 2011 Texas record drought/heat wave and implications to biogeochemical cycling and organic matter dynamics

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