Changes in the chemistry of soil solution and acetic‐acid extractable P following different types of freeze/thaw episodes

Vaz, M. D. Ron; Edwards, Anthony C.; Shand, C. A.; Cresser, Malcolm S.

doi:10.1111/j.1365-2389.1994.tb00519.x

Cited by 59 publications

(44 citation statements)

References 35 publications

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“…The studies which do exist report no, or inconclusive, effects on soil solution [DOC]. The strong influence of soil frost on [DOC] observed in our study is, however, similar to results obtained in laboratory-scale freezing experiments [Austnes and Vestgarden, 2008;Vaz et al, 1994;Wang and Bettany, 1993]. The great effect of soil frost on DOC, in contrast to previous field experiments, could be related to our long-term experimental design, which closely mirrors the natural variability occurring in the region [Öquist and Laudon, 2008].…”

Section: Discussioncontrasting

confidence: 57%

Cold winter soils enhance dissolved organic carbon concentrations in soil and stream water

Haei

Öquist

Buffam

et al. 2010

Geophysical Research Letters

112

119

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Concentrations of dissolved organic carbon ([DOC]) have increased in lakes, streams and rivers across a large part of the northern hemisphere and raised an animated scientific debate about the underlying mechanisms. The lack of consensus about the role of climate in controlling the DOC trends highlights the need for understanding the regulation of surface water DOC. We found that longer and colder winters result in higher [DOC] in a boreal headwater stream during the subsequent snowmelt. In addition, prolonged soil frost increases the spring and summer [DOC] in the riparian soil water, which is a major contributor of stream water DOC in the studied area. We conclude that winter climatic conditions can play a substantial role in controlling stream [DOC] in ways not previously understood. These findings are especially important for northern latitude regions expected to be most affected by climate change.

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Section: Discussioncontrasting

confidence: 57%

Cold winter soils enhance dissolved organic carbon concentrations in soil and stream water

Haei

Öquist

Buffam

et al. 2010

Geophysical Research Letters

112

119

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“…Similar changes occur after freezing (Ron Vaz et al, 1994) and can even continue during storage of air-dried samples (Turner, 2005). …”

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confidence: 78%

Sample Pretreatment and Phosphorus Speciation in Wetland Soils

Turner

Newman

Cheesman

et al. 2007

Soil Science Soc of Amer J

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We assessed the influence of sample pretreatment on the amounts and forms of P extracted in NaOH-EDTA (ethylenediamine tetraacetic acid) from a series of contrasting wetland soils from the Florida Everglades. Samples of unconsolidated benthic floe and underlying soil (0-10 cm) were extracted either fresh (overnight refrigeration only), air dried (10 d at ~30°C), or frozen at -80°C and lyophilized (~48 h), before extraction and solution ^'P nuclear magnetic resonance (NMR) spectroscopy. Significant differences in total P extraction following pretreatment were detected for one out of four benthic floe samples and three out of four soil samples, although the changes were inconsistent: in two cases the total P extraction increased, while in two others it decreased. Assessment of the P composition by solution ^ P NMR spectroscopy revealed differences among treatments, although these were mostly within the range of error associated with replicate analyses; however, DNA was not detected in a fresh sample of calcareous benthic floe, despite representing an important component of the organic P extracted from dried samples. The apparent sample-specific nature of the changes confirms the importance of carefully assessing pretreatment effects in studies of soil organic P in wetlands.Abbreviations: EDTA, ethylenediamine tetraacetic acid; NMR, nuclear magnetic resonance.Organic P constitutes a considerable proportion of the total P in wetland soils, so its accurate measurement is the basis for understanding P biogeochemistry in wetland ecosystems. Soil organic P is now commonly assessed by extraction in a solution containing NaOH and ethylenediamine tetraacetic acid (EDTA), with detection by solution ^'P NMR spectroscopy (Cade-Menun, 2005; Turner et ai., 2005). The single-step NaOH•EDTA extractant "was developed to quantitatively recover organic P from mineral soils (Bowman and Moir, 1993), but is particularly effective for organic soils with relatively lo"w pH, from which >90% of the total P can be extracted (e.g., Cade-Menun et al., 2000;Turner et al., 2004). It should therefore be well suited to the analysis of wetland soils and has recently been applied to a series of slightly acidic to alkaline samples from the Florida Everglades (Robinson et al., 1998;Turner et al., 2006a). Most samples analyzed so far contained a range of P compounds, including phosphate, phosphate mono-

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“…Indeed, functional classification of water-extractable organic phosphorus from dry Australian pasture soils revealed similar proportions of microbially derived phosphate diesters and phytic acid from the non-biomass soil organic matter [59]. A similar mechanism probably occurs following freezing and thawing [60]. Such processes probably explain the increases in phosphorus extractable in bicarbonate following soil drying [61] Fig .…”

Section: Soilsmentioning

confidence: 90%

Sampling, sample treatment and quality assurance issues for the determination of phosphorus species in natural waters and soils

Worsfold

Gimbert

Mankasingh

et al. 2005

Talanta

162

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Changes in the chemistry of soil solution and acetic‐acid extractable P following different types of freeze/thaw episodes

Cited by 59 publications

References 35 publications

Cold winter soils enhance dissolved organic carbon concentrations in soil and stream water

Cold winter soils enhance dissolved organic carbon concentrations in soil and stream water

Sample Pretreatment and Phosphorus Speciation in Wetland Soils

Sampling, sample treatment and quality assurance issues for the determination of phosphorus species in natural waters and soils

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