The deposition of atmospheric ammonia and its effects on plants

Pearson, Jennifer; Stewart, George R.

doi:10.1111/j.1469-8137.1993.tb03882.x

Cited by 361 publications

(229 citation statements)

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“…The build-up of free NH 4 + in the plant tissues may not necessarily inhibit photosynthesis or growth on a short-term basis. The acid-base regulation in cells depends on intrinsic features of the plant's metabolism (Pearson & Stewart 1993).…”

Section: Resultsmentioning

confidence: 99%

“…It is possible that throughfall is rich in NH 4 + as it was observed in forests in the polluted regions of The Netherlands, with concentrations of 0.32 to 2.4 mM (Van Breemen et al 1982). In several European countries, it was observed that 50% of the N compounds released into the environment consisted of NH 3 /NH 4 + , and this indicates the importance of these compounds for vegetation (Pearson & Stewart 1993). Besides being released from the soil, NH 3 can be emitted from senescing plant parts (Hanstein & Felle 1999).…”

Section: Introductionmentioning

confidence: 99%

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Effects of different ammoniacal nitrogen sources on N-metabolism of the atmospheric bromeliad Tillandsia pohliana Mez

Tamaki

Mercier

2001

Rev. bras. Bot.

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-(Effects of different ammoniacal nitrogen sources on N-metabolism of the atmospheric bromeliad Tillandsia pohliana Mez). Increasing levels of atmospheric ammonia from anthropogenic sources have become a serious problem for natural vegetation. Short-term effects of different ammoniacal sources on the N metabolism of Tillandsia pohliana, an atmospheric bromeliad, were investigated. One-year-old, aseptically grown plants were transferred to a modified Knudson medium lacking N for three weeks. Plants were subsequently transferred to Knudson media supplemented with 0.5, 1.0, or 1.5 mM of N in the forms of NH 3 or NH 4 + as the sole N source. The activities of glutamine synthetase (GS) and glutamate dehydrogenase (GDH-NADH) were determined after 40 h. The GS activity was stimulated significantly by increasing the levels of the gaseous form. The GDH-NADH activity increased significantly under increasing N concentrations with NH 3 , while no significant differences were observed with NH 4 + as a N source. These results may reflect a faster NH 3 absorption by T. pohliana compared to NH 4 + uptake. The increased activity of GDH-NADH in NH 3 treatment may play a role in protecting the cells from the toxic effects of increased endogenous level of free ammonium. A raise in the concentration of N, especially in the form of NH 3 , greatly increased the content of free amino acids and soluble proteins. A possible utilisation of T. pohliana to evaluate the changes of atmospheric gaseous ammonia is proposed.RESUMO -(Efeitos de diferentes fontes amoniacais sobre o metabolismo de nitrogênio da bromélia atmosférica Tillandsia pohliana Mez). As fontes antropogênicas de amônia atmosférica têm se tornado um problema sério para a vegetação natural. No presente trabalho foram analisados os efeitos da aplicação de diferentes fontes amoniacais sobre o metabolismo do nitrogênio de Tillandsia pohliana, uma bromélia atmosférica. As sementes foram germinadas in vitro e as plantas cresceram em meio de cultura de Knudson por um ano. Após esse período, elas foram transferidas para o meio de Knudson sem as fontes nitrogenadas originais. Três semanas depois, as plantas foram colocadas nesse mesmo meio de cultura, porém, suplementado com 0,5, 1,0 ou 1,5 mM de N nas formas de NH 3 ou NH 4 + como fontes únicas de nitrogênio. O tempo de exposição a essas fontes foi de 40 h. As atividades enzimáticas da glutamina sintetase (GS) e da glutamato desidrogenase (GDH-NADH) foram analisadas. Os teores endógenos de amônio, de aminoácidos livres e de proteínas solúveis, presentes nos eixos caulinares dessa bromélia, também, foram determinados. As atividades da GS e da GDH-NADH foram estimuladas, significativamente, com o aumento do nitrogênio na forma gasosa. Esses resultados podem refletir a rápida absorção de NH 3 pela planta. Entretanto, a atividade aminante da GDH não apresentou diferença significativa em resposta ao aumento do N na forma de NH 4 + . Provavelmente, o incremento na atividade da GDH-NADH, no tratamento com NH 3 , está relacionado com...

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Effects of different ammoniacal nitrogen sources on N-metabolism of the atmospheric bromeliad Tillandsia pohliana Mez

Tamaki

Mercier

2001

Rev. bras. Bot.

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“…However when nutrients, particularly nitrogen, are in excess, the plant physiological and growth response are negatively affected. This is due to nitrogen toxicity, and in aquatic or marine systems additional algal overgrowth, which both lead to a higher demand of carbon skeletons, thus causing physiological imbalance, ultimately leading to mortality and collapse (Pearson and Stewart, 1993;Marschner, 1995; for seagrasses reviewed in: Touchette and Burkholder, 2000;Burkholder et al, 2007). Along this eutrophication trajectory, prior to collapse, increasing plant cover thus may coincide with increasing physiological imbalance, which likely diminishes plant recovery potential.…”

Section: Best Estimate For Seagrass Health and Resilience?mentioning

confidence: 99%

Cover versus recovery: Contrasting responses of two indicators in seagrass beds

Soissons

Han

et al. 2014

Marine Pollution Bulletin

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a b s t r a c tDespite being a highly valuable key-stone ecosystem, seagrass meadows are threatened and declining worldwide, creating urgent need for indicators of their health status. We compared two indicators for seagrass health: standing leaf area index versus relative recovery from local disturbance. Disturbance was created by removing aboveground biomass and recording the rate of regrowth for Zostera marina meadows exposed to contrasting wave regimes and nutrient stress levels.Within the experimental period, relative regrowth in gaps was around 50% in most plots, except for the ambient nutrient treatment at the sheltered site, where it exceeded 100%. The two indicators showed an opposite response to disturbance: the higher the standing leaf area index, the lower the relative recovery from disturbance. This conflicting response raises the question on the proper interpretation of such indicators to estimate seagrass health and resilience, and how to ideally monitor seagrass ecosystems in order to predict collapse.

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“…1 It can even be generally produced in natural processes in animals, human and plants. 2 Ammonia can irritates skin, eyes and respiratory tract of humans when the concentration reaches to a certain value (the safety threshold is ∼25 ppm in air). 3 It is also flammable at concentration of ca.…”

mentioning

confidence: 99%

Effective Room-Temperature Ammonia-Sensitive Composite Sensor Based on Graphene Nanoplates and PANI

Chen

Liu

et al. 2018

ECS J. Solid State Sci. Technol.

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The graphene nanoplate (GN)-polyaniline (PANI) composite was developed via in-situ polymerization method and simultaneously assembled on interdigital electrodes (IDEs) at low temperature for ammonia (NH 3 ) detection. The assembled composite sensor showed excellent sensing performance toward different concentrations of NH 3 , 1.5 of response value and 123 s/204 s for the response/recovery time to 15 ppm NH 3 . Meanwhile, an interesting supersaturation phenomenon was observed at high concentration of NH 3 . A reasonable speculation was proposed for this special sensing behavior and the mechanism for enhanced sensing properties was also analyzed. Among the toxic gases of the interest, ammonia is a prominent example for its wide applications in industrial manufacturing and daily life. 1 It can even be generally produced in natural processes in animals, human and plants. 2 Ammonia can irritates skin, eyes and respiratory tract of humans when the concentration reaches to a certain value (the safety threshold is ∼25 ppm in air). 3 It is also flammable at concentration of ca. 15%-28% by volume in air. 4 Therefore, many approaches have been employed to detect ammonia, including gas chromatography, 5 polarography, 6 fluorometry 7 and spectrophotometry. 8 Meanwhile, with the consideration of the need for cheap, fast and efficient sensors, semiconductor-based gas sensors have been developed quickly. 9 As an emerging 2-D material, graphene has attracted much attention worldwide for its large specific surface area 10 and excellent electrical properties. 11,12 However, no material can be satisfactorily applied in any field, especially in complex scenarios. Theoretical and experimental studies have shown graphene performs limited selectivity to different kinds of gas species. 13 Composition with other functional materials would be an expectable choice. The conducting polymer, especially polyaniline (PANI), 14 is a promising choice, as their low cost and ability for room-temperature detection. 15 Extensive studies reported that the composite of PANI and graphene demonstrates efficient charge transport and collection, 16 as well as enhanced thermal and chemical stability. 17 Herein, GN-PANI nanocomposite film was synthesized by in-situ chemical oxidative polymerization of aniline in a functional graphene nanoplate (GN) suspension, and was simultaneously assembled onto a substrate with interdigital electrodes (IDEs) at low temperature. It suggests that the composite film sensor shows enhanced π electrons conjugation system, large specific surface area and stronger intermolecular interaction. Benefit from this, the composite showed a much improved sensing performance comparing with bare GN and bare PANI based sensors. z E-mail: zhichen@engr.uky.edu; taitai1980@uestc.edu.cn ExperimentalMaterials.-Aniline (≥99.5%), poly (diallyldimenthylammonium chloride) solution (PDDA) and poly (sodium 4-styrenesulfonate) (PSS) were purchased from Sigma-Aldrich Co., USA. Ammonium persulfate (APS) and hydrochloric acid (HCl) were obtained from Chen...

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The deposition of atmospheric ammonia and its effects on plants

Cited by 361 publications

References 139 publications

Effects of different ammoniacal nitrogen sources on N-metabolism of the atmospheric bromeliad Tillandsia pohliana Mez

Effects of different ammoniacal nitrogen sources on N-metabolism of the atmospheric bromeliad Tillandsia pohliana Mez

Cover versus recovery: Contrasting responses of two indicators in seagrass beds

Effective Room-Temperature Ammonia-Sensitive Composite Sensor Based on Graphene Nanoplates and PANI

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