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Zeitschrift fur Naturforschung - Section C Journal of Biosciences

Volumn 60, Issue 3-4, 2005, Pages 279-284

Nocturnal uptake and assimilation of nitrogen dioxide by C3 and CAM plants

(4) Takahashi, Misa a,b Konaka, Daisuke a Sakamoto, Atsushi a,b Morikawa, Hiromichi a,b

a HIROSHIMA UNIVERSITY (Japan)

b JAPAN SCIENCE AND TECHNOLOGY AGENCY (Japan)

Author keywords

Assimilation of NO2; CAM Plant; Kenaf; Stomatal Conductance

Indexed keywords

ALOE; ALOE ARBORESCENS; HIBISCUS; HIBISCUS CANNABINUS; KALANCHOE; KALANCHOE BLOSSFELDIANA; NICOTIANA TABACUM; PHYSALIS; PHYSALIS ALKEKENGI; SEDUM; TABACUM;

EID: 19944377222 PISSN: 09395075 EISSN: None Source Type: Journal
DOI: 10.1515/znc-2005-3-413 Document Type: Conference Paper

Times cited : (20)

References (26)

1
- 0000093464
- An absorption apparatus for the micro-determination of certain volatile substances. I. The microdetermination of ammonia
- Conway E. J. and Byrne A. (1933), An absorption apparatus for the micro-determination of certain volatile substances. I. The microdetermination of ammonia. Biochem. J. 27, 419-429.
- (1933) Biochem. J. , vol.27 , pp. 419-429
- Conway, E.J.¹ Byrne, A.²

2
- 0033780694
- 2 fluxes between beech trees and the atmosphere - Correlation with climatic and physiological parameters
- 2 fluxes between beech trees and the atmosphere - correlation with climatic and physiological parameters. New Phytol. 147, 539-560.
- (2000) New Phytol. , vol.147 , pp. 539-560
- Geßler, A.¹ Rienks, M.² Rennenberg, H.³

3
- 10244252034
- 2 to needles of adult spruce (Picea abies) trees
- 2 to needles of adult spruce (Picea abies) trees. New Phytol. 156, 179-194.
- (2002) New Phytol. , vol.156 , pp. 179-194
- Geßler, A.¹ Rienks, M.² Rennenberg, H.³

4
- 0015068732
- Vegetation: A sink for atmospheric pollutants
- Hill A. C. (1971), Vegetation: A sink for atmospheric pollutants. J. Air Pollut. Contr. Ass. 21, 341-346.
- (1971) J. Air Pollut. Contr. Ass. , vol.21 , pp. 341-346
- Hill, A.C.¹

5
- 0002442325
- 2 absorbed in the leaves and transfer of the nitrogen through the plants
- 2 absorbed in the leaves and transfer of the nitrogen through the plants. Res. Rep. Nat. Inst. Environ. Stud. No. 11, 51-58.
- (1980) Res. Rep. Nat. Inst. Environ. Stud. , vol.11 , pp. 51-58
- Kaji, M.¹ Yoneyama, T.² Tosuka, T.³ Iwaki, H.⁴

6
- 0029845629
- 4 + ions in leaves of various plants by capillary electrophoresis
- 4 + ions in leaves of various plants by capillary electrophoresis. Plant Cell Physiol. 37, 878-880.
- (1996) Plant Cell Physiol. , vol.37 , pp. 878-880
- Kawamura, Y.¹ Takahashi, M.² Ariumura, G.³ Isayama, T.⁴ Irifune, K.⁵ Goshima, N.⁶ Morikawa, H.⁷

7
- 1842265198
- 15NO by plant cuticles
- 15NO by plant cuticles. Naturwissenschaften 74, 550-551.
- (1987) Naturwissenschaften , vol.74 , pp. 550-551
- Kisser-Priesack, G.M.¹ Scheunert, I.² Gnatz, G.³

8
- 2442526542
- Springer Publ., Berlin, Germany
- rd ed. Springer Publ., Berlin, Germany, pp. 321-448.
- (1995) rd Ed. , pp. 321-448
- Larcher, W.¹

9
- 0642313856
- Basic processes in phytoremediation and some applications to air pollution control
- Morikawa H. and Erkin O. C. (2003), Basic processes in phytoremediation and some applications to air pollution control. Chemosphere 52, 1553-1558.
- (2003) Chemosphere , vol.52 , pp. 1553-1558
- Morikawa, H.¹ Erkin, O.C.²

10
- 0031832442
- More than a 600-fold variation in nitrogen dioxide assimilation among 217 plant taxa
- Morikawa H., Higaki A., Nohno M., Takahasi M., Kamada M., Nakata M., Toyohara G., Okamura Y., Matsui K., Kitani S., Fujita K., Irifune K., and Goshima N. (1998), More than a 600-fold variation in nitrogen dioxide assimilation among 217 plant taxa. Plant Cell Environ. 21, 180-190.
- (1998) Plant Cell Environ. , vol.21 , pp. 180-190
- Morikawa, H.¹ Higaki, A.² Nohno, M.³ Takahasi, M.⁴ Kamada, M.⁵ Nakata, M.⁶ Toyohara, G.⁷ Okamura, Y.⁸ Matsui, K.⁹ Kitani, S.¹⁰ Fujita, K.¹¹ Irifune, K.¹² Goshima, N.¹³

11
- 19944404144
- Manipulation of genes for nitrogen metabolism in plants
- (Oomasa K., Saji H., Youssefian S., and Kondo N., eds.). Springer Publ., Tokyo
- Morikawa H., Takahashi M., and Arimura G. (2002), Manipulation of genes for nitrogen metabolism in plants. In: Air Pollution and Biotechnology in Plants (Oomasa K., Saji H., Youssefian S., and Kondo N., eds.). Springer Publ., Tokyo, pp. 383-401.
- (2002) Air Pollution and Biotechnology in Plants , pp. 383-401
- Morikawa, H.¹ Takahashi, M.² Arimura, G.³

12
- 0242577143
- Screening and genetic manipulation of plants for decontamination of pollutants from the environments
- Morikawa H., Takahashi M., Hakata M., and Sakamoto A. (2003a), Screening and genetic manipulation of plants for decontamination of pollutants from the environments. J. Biotechnol. Adv. 22, 9-15.
- (2003) J. Biotechnol. Adv. , vol.22 , pp. 9-15
- Morikawa, H.¹ Takahashi, M.² Hakata, M.³ Sakamoto, A.⁴

13
- 20444422072
- Air pollution clean up using pollutant-philic plants-metabolism of nitrogen dioxide and genetic manipulation of related genes
- (McCutcheon S. C. and Schnoor J. L., eds.). John Wiley and Sons, Inc., New York
- Morikawa H., Takahashi M., and Kawamura Y. (2003b), Air pollution clean up using pollutant-philic plants-metabolism of nitrogen dioxide and genetic manipulation of related genes. In: Phytoremediation: Transformation and Control of Contaminants (McCutcheon S. C. and Schnoor J. L., eds.). John Wiley and Sons, Inc., New York, pp. 765-786.
- (2003) Phytoremediation: Transformation and Control of Contaminants , pp. 765-786
- Morikawa, H.¹ Takahashi, M.² Kawamura, Y.³

14
- 2442611910
- Formation of unidentified nitrogen in plants: An implication for a novel nitrogen metabolism
- Morikawa H., Takahashi M., Sakamoto A., Matubara T., Arimura G., Kawamura Y., Fukunaga K., Fujita K., Sakurai N., Hirata T., Ide H., Nonoyama N., and Suzuki H. (2004), Formation of unidentified nitrogen in plants: an implication for a novel nitrogen metabolism. Planta 219, 14-22.
- (2004) Planta , vol.219 , pp. 14-22
- Morikawa, H.¹ Takahashi, M.² Sakamoto, A.³ Matubara, T.⁴ Arimura, G.⁵ Kawamura, Y.⁶ Fukunaga, K.⁷ Fujita, K.⁸ Sakurai, N.⁹ Hirata, T.¹⁰ Ide, H.¹¹ Nonoyama, N.¹² Suzuki, H.¹³

15
- 0027811164
- 3 by sunflower (Helianthus annuus) and tobacco plants (Nicotiana tabacum): Dependence on stomatal conductivity
- 3 by sunflower (Helianthus annuus) and tobacco plants (Nicotiana tabacum): Dependence on stomatal conductivity. Atmos. Environ. 27A, 2137-2145.
- (1993) Atmos. Environ. , vol.27 A , pp. 2137-2145
- Neubert, A.¹ Kley, D.² Wildt, J.³ Segschneider, H.J.⁴ Förstel, H.⁵

16
- 0022590133
- 2 by plants
- 2 by plants. New Phytol. 102, 73-84.
- (1986) New Phytol. , vol.102 , pp. 73-84
- Okano, K.¹ Fukuzawa, T.² Tazaki, T.³ Totsuka, T.⁴

17
- 84982607574
- x
- x. New Phytol. 103, 199-205.
- (1986) New Phytol. , vol.103 , pp. 199-205
- Saxe, H.¹

18
- 0028835519
- 2 during exposures in light and darkness: Quantities, relationship to stomatal aperture and incorporation into different nitrogen pools within the plant
- 2) during exposures in light and darkness: quantities, relationship to stomatal aperture and incorporation into different nitrogen pools within the plant. New Phytol. 131, 109-119.
- (1995) New Phytol. , vol.131 , pp. 109-119
- Segschneider, H.-J.¹ Wildt, J.² Förstel, H.³

19
- 0016812406
- 2
- 2. Can. J. Bot. 53, 466-474.
- (1974) Can. J. Bot. , vol.53 , pp. 466-474
- Srivastava, H.S.¹ Jolliffe, P.A.² Runeckles, V.C.³

20
- 0034990718
- Nitrite reductase gene enrichment improves assimilation of nitrogen dioxide in Arabidopsis
- Takahashi M., Sasaki Y., Ida S., and Morikawa H. (2001), Nitrite reductase gene enrichment improves assimilation of nitrogen dioxide in Arabidopsis. Plant Physiol. 126, 731-741.
- (2001) Plant Physiol. , vol.126 , pp. 731-741
- Takahashi, M.¹ Sasaki, Y.² Ida, S.³ Morikawa, H.⁴

21
- 0041510281
- Assimilation of nitrogen dioxide in selected plant taxa
- Takahashi M., Kondo K., and Morikawa H. (2003), Assimilation of nitrogen dioxide in selected plant taxa. Acta Biotechnol. 23, 241-247.
- (2003) Acta Biotechnol. , vol.23 , pp. 241-247
- Takahashi, M.¹ Kondo, K.² Morikawa, H.³

22
- 84987044262
- 2 influx and its correlation with nitrate reduction
- 2 influx and its correlation with nitrate reduction. New Phytol. 117, 575-585.
- (1991) New Phytol. , vol.117 , pp. 575-585
- Thoene, B.¹ Schröder, P.² Papen, H.³ Egger, A.⁴ Rennenberg, H.⁵

23
- 0029108092
- 2 and its incorporation into free amino acids in wheat (Triticum aestivum)
- 2 and its incorporation into free amino acids in wheat (Triticum aestivum). Physiol. Plant. 94, 71-77.
- (1995) Physiol. Plant. , vol.94 , pp. 71-77
- Weber, P.¹ Nußbaum, S.² Fuhrer, J.³ Gfeller, H.⁴ Schlunegger, U.P.⁵ Brunold, C.⁶ Rennenberg, H.⁷

24
- 0025596385
- Why are atmospheric oxides of nitrogen usually phytotoxic and not alternative fertilizers?
- Wellburn A. R. (1990), Why are atmospheric oxides of nitrogen usually phytotoxic and not alternative fertilizers? New Phytol. 115, 395-429.
- (1990) New Phytol. , vol.115 , pp. 395-429
- Wellburn, A.R.¹

25
- 0018663275
- 2 absorption in leaves
- 2 absorption in leaves. Soil Sci. Plant Nut. 25, 267-275.
- (1979) Soil Sci. Plant Nut. , vol.25 , pp. 267-275
- Yoneyama, T.¹ Sasakawa, H.² Ishizuka, S.³ Totsuka, T.⁴

26
- 3543026001
- Metabolism and detoxification of nitrogen dioxide and ammonia in plants
- (Oomasa K., Saji H., Youssefian S., and Kondo N, eds.). Springer Publ., Tokyo
- Yoneyama T., Kim H. Y., Morikawa H., and Srivastava H. S. (2002), Metabolism and detoxification of nitrogen dioxide and ammonia in plants. In: Air Pollution and Biotechnology in Plants (Oomasa K., Saji H., Youssefian S., and Kondo N, eds.). Springer Publ., Tokyo, pp. 221-234.
- (2002) Air Pollution and Biotechnology in Plants , pp. 221-234
- Yoneyama, T.¹ Kim, H.Y.² Morikawa, H.³ Srivastava, H.S.⁴

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