Severe drought-influenced composition and δ13C of plant and soil n-alkanes in model temperate grassland and heathland ecosystems

Srivastava, Kavita; Wiesenberg, Guido L. B.

doi:10.1016/j.orggeochem.2017.11.002

Cited by 14 publications

(8 citation statements)

References 77 publications

(129 reference statements)

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“…2% and 10% of TLE for plant residue and soil samples, respectively (Table 1). These bulk proportions are in agreement with those generally reported for plants and soils (Quénéa et al 2004;Nguyen Tu et al 2011;Srivastava & Wiesenberg 2018). The distribution of apolar lipids is shown as histograms in Fig.…”

Section: Apolar Lipid Distributionsupporting

confidence: 91%

Influence of earthworms on apolar lipid features in soils after 1 year of incubation

Vidal

Quénéa

et al. 2020

Biogeochemistry

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Molecular and compound specific isotope compositions of apolar lipids were characterized in soil mesocosms incubated for one year with or without 13 C-labelled plant residues and earthworms, in order to investigate, at the molecular scale, the effect of earthworms on the fate of organic matter (OM) in soils. Molecular and isotope composition of long chain alkanes in casts confirmed that earthworms preferentially ingest soil fractions rich in plant debris. Apolar lipid specific isotope composition allowed calculation of the proportion of carbon derived from the labelled residues (Clab). Casts displayed higher Clab values than surrounding soil while soil without earthworm exhibited intermediate Clab. The odd-over-even predominance (OEP) of alkanes suggested they are probably less degraded in casts than in the surrounding soil. Taken together, OEP and Clab values suggested that besides high incorporation of plant residues, earthworms may also favor the preservation of plant apolar lipids in their casts. Additionally, chain length and isotope pattern of alkanes further suggested root lipids were probably less degraded than shoot lipids. High 13 C-incorporation level for the bacterial biomarker hopene provided evidence for intense recycling of plant OM and suggested further contribution of bacterial necromass to soil OM.

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Section: Apolar Lipid Distributionsupporting

confidence: 91%

Influence of earthworms on apolar lipid features in soils after 1 year of incubation

Vidal

Quénéa

et al. 2020

Biogeochemistry

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“…To date, they have been widely used in studies of marine sediments (Tierney and DeMenocal, 2013), lake sediments (Aichner et al , 2015; Hou et al , 2018; Rao et al , 2016; Zhao et al , 2021), peat (Huang et al , 2018; Huang and Meyers, 2019) and loess (Xie et al , 2003; Zhang et al , 2006; Wang et al , 2018, 2021). With increasing aridity, plants will have a higher productivity for leaf wax, thus the concentration of soil n ‐alkanes might be used as a proxy for climatic aridity (Hoffmann et al , 2013; Ni et al , 2015; Srivastava and Wiesenberg, 2018). As the composition of vegetation determines the distribution of different carbon numbers of these long‐chain n ‐alkane homologues, proxies such as the carbon number of the most abundant homologue (C max ) and the average chain length (ACL) can be used to infer changes in vegetation in the sedimentary record (Eglinton and Eglinton, 2008), which has been widely used in the Chinese loess plateau (CLP) records (Zhang et al , 2006; Zhou et al , 2016; Xue et al , 2016; Chen et al , 2020).…”

Section: Introductionmentioning

confidence: 99%

Asynchronous variations of East Asian summer monsoon, vegetation and soil formation at Yulin (North China) in the Holocene

Liang

et al. 2022

J Quaternary Science

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In the East Asian monsoon region, Chinese speleothem δ 18 O records exhibit a maximum monsoon strength during the early Holocene. However, other proxy data from lakes or loess, interpreted as monsoon rainfall, show a mid-Holocene monsoon optimum. This discrepancy may come from specific climate interpretation of different proxies. Here we report multiproxy records from a single loess-palaeosol sequence at Yulin in the monsoon marginal northern China, based on an independent and high-precision chronology. Our long-chain n-alkane δD values, together with related biomarker proxies including the average chain length and concentration of long-chain n-alkanes, reveal a weakening trend in monsoon strength and less woody vegetation since ~6 ka. However, other soil formation-related proxies, such as magnetic susceptibility, grain-size distribution and total organic carbon, show a decreasing trend since 4-3 ka. We find that monsoon and vegetation are controlled by insolation variation, while soil formation is more related to temperature and humidity changes. Our multiple proxy comparison reveals different controlling mechanisms leading to different interpretations in monsoon, vegetation and soil formation reconstructions. This finding suggests that previous debates on Holocene monsoon changes in East Asia probably stem from the specific proxy interpretation.

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“…Drought stress severely reduces plant growth and development by reduction in turgor pressure, cell elongation and expansion due to the osmotic stress (Farooq, Wahid, Kobayashi, Fujita, & Basra, ). Plants have developed multiple mechanisms through integrated morphological and physiological responses to survive under drought stress conditions such as deep root system (Chloupek, Dostál, Středa, Psota, & Dvořáčková, ), manipulation of stomata (Franks, W Doheny‐Adams, Britton‐Harper, & Gray, ), deposition of cuticular wax or cutinisation on leaf surface (Srivastava & Wiesenberg, ), leaf rolling (Zhang et al., ), increasing leaf thickness and succulence (Oliveira, Meyer, Afonso, & Gonçalves, ), osmotic adjustment through organic and inorganic compatible solutes (Turner, ). Among these adaptive mechanisms, stomatal and residual transpiration control and root system development are essential to the survival of plants under drought stress conditions.…”

Section: Introductionmentioning

confidence: 99%

Understanding physiological and morphological traits contributing to drought tolerance in barley

Hasanuzzaman

Shabala

Brodribb

et al. 2018

J Agronomy Crop Science

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Drought stress is a major limiting factor for crop production in the arid and semi‐arid regions. Here, we screened eighty barley (Hordeum vulgare L.) genotypes collected from different geographical locations contrasting in drought stress tolerance and quantified a range of physiological and agronomical indices in glasshouse trails. The experiment was conducted in large soil tanks subjected to drought treatment of eighty barley genotypes at three‐leaf stage and gradually brought to severe drought by withholding irrigation for 30 days under glasshouse conditions. Also, root length of the same genotypes was measured from stress‐affected plants growing hydroponically. Drought tolerance was scored 30 days after the drought stress commenced based on the degree of the leaf wilting, fresh and dry biomass and relative water content. These characteristics were related to stomatal conductance, stomatal density, residual transpiration and leaf sap Na, K, Cl contents measured in control (irrigated) plants. Responses to drought stress differed significantly among the genotypes. The overall drought tolerance was significantly correlated with relative water content, stomatal conductance and leaf Na+ and K+ contents. No significant correlations between drought tolerance and root length of 6‐day‐old seedling, stomatal density, residual transpiration and leaf sap Cl− content were found. Taking together, these results suggest that drought‐tolerant genotypes have lower stomatal conductance, and lower water content, Na+, K+ and Cl− contents in their tissue under control conditions than the drought‐sensitive ones. These traits make them more resilient to the forthcoming drought stress.

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Severe drought-influenced composition and δ13C of plant and soil n-alkanes in model temperate grassland and heathland ecosystems

Cited by 14 publications

References 77 publications

Influence of earthworms on apolar lipid features in soils after 1 year of incubation

Influence of earthworms on apolar lipid features in soils after 1 year of incubation

Asynchronous variations of East Asian summer monsoon, vegetation and soil formation at Yulin (North China) in the Holocene

Understanding physiological and morphological traits contributing to drought tolerance in barley

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