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Al3+-Ca2+ interactions in aluminum rhizotoxicity (1993)

Kinraide, Thomas B. ; Ryan, Peter R. ; Kochian, Leon V.

Springer

Planta 192 (1993), S. 104-109

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ISSN: 1432-2048

Keywords: Aluminum toxicity ; Calcium displacement ; Electrical potential ; Root ; Triticum

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Several mineral rhizotoxicities, including those induced by Al3+, H+, and Na+, can be relieved by elevated Ca2+ in the rooting medium. This leads to the hypothesis that the toxic cations displace Ca2+ from transport channels or surface ligands that must be occupied by Ca2+ in order for root elongation to occur. In this study with wheat (Triticum aestivum L.) seedlings, we have determined, in the case of Al3+, that (i) Ca2+, Mg2+, and Sr2+ are equally ameliorative, (ii) that root elongation does not increase as Ca2+ replaces Mg2+ or Sr2+ in the rooting media, and (iii) that rhizotoxicity is a function solely of Al3+ activity at the root-cell membrane surface as computed by a Gouy-Chapman-Stern model. The rhizotoxicity was indifferent to the computed membrane-surface Ca2+ activity. The rhizotoxicity induced by high levels of tris(ethylenediamine)cobaltic ion (TEC3+), in contrast to Al3+, was specifically relieved by Ca2+ at the membrane surface. The rhizotoxicity induced by H+ exhibited a weak specific response to Ca2+ at the membrane surface. We conclude that the Ca2+-displacement hypothesis fails in the case of Al3+ rhizotoxicity and that amelioration by cations (including monovalent cations) occurs because of decreased membrane-surface negativity and the consequent decrease in the membrane-surface activity of Al3+. However, TEC3+, but not Al3+, may be toxic because it inhibits Ca2+ uptake. The nature of the specific H+-Ca2+ interaction is uncertain.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00198699

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Electronic Resource

Al3+-Ca2+ interactions in aluminum rhizotoxicity (1993)

Ryan, Peter R. ; Kinraide, Thomas B. ; Kochian, Leon V.

Springer

Planta 192 (1993), S. 98-103

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ISSN: 1432-2048

Keywords: Aluminum toxicity ; Calcium uptake ; Growth inhibition ; Root ; Triticum

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The cation Al3+ is toxic to plants at micromolar concentrations and can severely inhibit root growth in solution experiments. Trivalent aluminum hydrolyzes in solution, and, apart from the Al3+ ion, which dominates speciation below pH 5.0, various mononuclear and polynuclear hydroxy-Al species can also occur (Kinraide 1991). Accumulating evidence suggests that Al3+ is the rhizotoxic species under the experimental conditions used in the present study (Kinraide 1991; Kinraide et al. 1992). The inhibition of Ca2+ uptake in roots by Al3+ has been proposed as a possible mechanism for Al3+ toxicity, and in this study the hypothesis was tested directly. Root growth and Ca2+ uptake were measured in 5-d-old seedlings of wheat (Triticum aestivum L. Thell) during exposure to Al3+ in a low-Ca2+ basal medium, and to Al3+ in the presence of added cations. Uptake of Ca2+ in whole roots and translocation to the shoot were measured using 45Ca2+, and localized measurements of net Ca2+ flux were also made at the root apex using the technique of microelectrode ion-flux estimation. Treatment with 2.64 μM AlCl3 in 226 μM CaCl2, at pH 4.5, severely inhibited root growth without affecting Ca2+ uptake. Addition of 30 mM Na2+, 3 mM Mg2+ or 50 μM tris(ethylenediamine)cobalt(III) to this Al3+ treatment restored root growth but significantly reduced Ca2+ uptake measured over the entire root system and at the root apex. The Al3+ and Ca2+ concentrations were adjusted so that the activities of the Al3+ and Ca2+ ions were constant in all solutions (1.5 μM and 200 μM, respectively). Root growth can be severely inhibited by Al3+ concentrations that do not affect Ca2+ uptake, while the addition of ameliorating cations depresses Ca2+ uptake. These results argue against the hypothesis that Al3+ inhibits root growth by reducing Ca2+ uptake.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00198698

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Global Mean Temperature (GMT) estimates, CO2 forcing relative to preindustrial, and climate sensitivity calculations (2020)

Anagnostou, Eleni ; John, Eleanor H ; Babila, Tali L ; [et al.]

PANGAEA

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Publication Date: 2024-04-20

Description: The dataset includes time series of global mean temperature for the Eocene, using a combination of sea surface temperature reconstructions and model derived estimates of global mean temperatures. These are coupled to the atmospheric CO2 reconstructions, translated into CO2 forcing relative to preindustrial, to calculate the evolving climate sensitivity for the Eocene. Both equilibrium climate sensitivity and earth system sensitivity are provided.

Keywords: Atmospheric CO2; climate sensitivity; Eocene; GMT; surface seawater pH

Type: Dataset

Format: application/vnd.openxmlformats-officedocument.spreadsheetml.sheet, 377.2 kBytes

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Reprocessed δ11B data for atmospheric CO2 and seawater pH from planktonic foraminifera (2020)

Anagnostou, Eleni ; John, Eleanor H ; Babila, Tali L ; [et al.]

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Publication Date: 2024-04-20

Description: In this dataset, we compile published records of seawater pH and atmospheric CO2 from foraminiferal δ11B are re-calculated using our current constrains and processing scenarios for the Eocene, for consistency to the new data. The re-calculation includes no vital effect treatment (for T. sac like species of planktonic foraminifera the offset in d11B at Eocene d11Bsw conditions is smaller than analytical uncertainty), no pH correction on Mg/Ca-temperature relationship (T. sac like species) and incorporating MyAMI for carbonate system calculations (https://github.com/MathisHain/MyAMI).

Keywords: Atmospheric CO2; climate sensitivity; Eocene; GMT; surface seawater pH

Type: Dataset

Format: application/vnd.openxmlformats-officedocument.spreadsheetml.sheet, 209.6 kBytes

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Boron isotope, Mg/Ca, Al/Ca data from planktonic foraminifera and reconstructed sea surface temperature, seawater pH and atmospheric CO2 concentrations from IODP and ODP sites, including estimates of Global Mean Temperature and Climate Sensitivity (2020)

Anagnostou, Eleni ; John, Eleanor H ; Babila, Tali L ; [et al.]

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Publication Date: 2024-04-20

Description: This dataset collection includes boron isotope, Mg/Ca, and Al/Ca data from planktonic foraminifera, reconstructed sea surface temperature, seawater pH and atmospheric CO2 concentrations, calculated Global Mean Temperature and Climate Sensitivity estimates, and recalculated seawater pH and atmospheric CO2 estimates from published planktonic foraminiferal boron isotope data.

Keywords: Atmospheric CO2; climate sensitivity; Eocene; GMT; surface seawater pH

Type: Dataset

Format: application/zip, 3 datasets

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