Globale Erwärmung durch Treibhauseffekt - nur ein Mythos der Linken? (Seite 3349)

Zur "Publikationsliste" von Lindzen: Na und?

Und das ist einfach mehr als du vorzuweisen hast, oder? Nein? Dann poste doch einfach mal deine Publikationsliste. Und dazu gleich deine Referenzierungliste im Vergleich zu Lindzen. Und ich wette dann können wir wohl definitiv ausschliessen wer nicht zur Creme de la Creme der Klimaforschung gehört. Und das wird nicht Lindzen sein.

Über den steht bei Wikipedia, und das unterscheidet sich selbst in den Teilen wo es kritisch ist doch stark von dem was du schreibst f4z:


Third-party characterizations of Lindzen
The New York Times article included the comments of several other experts. Jerry Mahlman, director of the Geophysical Fluid Dynamics Laboratory, did not accept Lindzen's assessment of the science, and said that Lindzen had "sacrificed his luminosity by taking a stand that most of us feel is scientifically unsound." Mahlman did, however, admit that Lindzen was a "formidable opponent." William Gray of Colorado State University basically agreed with Lindzen, describing him as "courageous." He said, "A lot of my older colleagues are very skeptical on the global warming thing." He added that whilst he regarded some of Lindzen's views as flawed, he said that, "across the board he's generally very good." John Wallace of the University of Washington agreed with Lindzen that progress in climate change science had been exaggerated, but said there are "relatively few scientists who are as skeptical of the whole thing as Dick [Lindzen] is."[39]
The November 10, 2004 online version of Reason magazine reported that Lindzen is "willing to take bets that global average temperatures in 20 years will in fact be lower than they are now."[55] James Annan, a scientist involved in climate prediction, contacted Lindzen to arrange a bet. Annan and Lindzen exchanged proposals for bets, but were unable to agree. Lindzen's final proposal was a bet that if the temperature change were less than 0.2 °C (0.36 °F), he would win. If the temperature change were between 0.2 °C (0.36 °F) and 0.4 °C (0.72 °F) the bet would be off, and if the temperature change were 0.4 °C (0.72 °F) or greater, Annan would win. He would take 2 to 1 odds.[56]
Lindzen has been characterized as a contrarian, in relation to climate change and other issues.[57][58][59] Lindzen's graduate students describe him as "fiercely intelligent, with a deep contrarian streak." [60]


Awards and honors
Lindzen is a recipient of the American Meteorological Society's Meisinger and Charney Awards, American Geophysical Union's Macelwane Medal, and the Leo Prize from the Wallin Foundation in Goteborg, Sweden. He is a member of the National Academy of Sciences (NAS), and the Norwegian Academy of Science and Letters, and was named Fellow of the American Academy of Arts and Sciences, the American Association for the Advancement of Sciences, the American Geophysical Union, and the American Meteorological Society. He is a corresponding member of the NAS Committee on Human Rights, and a member of the United States National Research Council Board on Atmospheric Sciences and Climate. He was a consultant to the Global Modeling and Simulation Group at NASA's Goddard Space Flight Center, and a Distinguished Visiting Scientist at California Institute of Technology's Jet Propulsion Laboratory. Lindzen is an ISI highly cited researcher,[61] and his biography has been included in American Men and Women of Science.[62]

http://en.wikipedia.org/wiki/Richard_Lindzen" target="_blank" rel="nofollow ugc noopener">http://en.wikipedia.org/wiki/Richard_Lindzen


Könntest du auch kurz deine Auszeichnungen posten und dann endlich deinen Wikipedia Eintrag? Du hast doch sicher einen, oder? Sicher hast du einen. Wer so auf die Pauke haut gegen Wissenschaftler die über jeden Zweifel erhaben sind der muss auch was vorzuweisen haben.

Wie du richtig sagst bin ich auf solche Dinge angewiesen denn die Wissenschaft kann ich wie 99,9 Prozent aller Politiker und Wähler nicht beurteilen. Also würdest du endlich etwas posten was mich überzeugen könnte du hättest gegen einen Experten wie Lindzen recht?

Beschimpfungen und Pöbeleine sind sind dafür nicht geeignet.

Zur "Publikationsliste" von Lindzen: Na und?

Die meisten Artikel sind nicht zum Thema. Eine Reihe von Einträgen in der Liste sind keine Fachartikel bzw. keine fachreferierten Publikationen. Und einige der Beiträge habe ich gelesen. Und ihre Widerlegungen in der Fachliteratur auch. Du keinen einzigen davon.

Und was den Erstsemester-Grundkurs Statistik angeht, wenn Lindzen schon daran scheitert, was bleibt dann von dem angeblichen "Creme de la Creme der Klimaforschung"? An so lächerlichen Charakterisierungen sieht man doch, daß Du hier über etwas schwallst, zu dem Du keine Beziehung hast.

Laut Lindzen Anfang 1990 hätte die globale Temperatur bis 2100 niemals über den Wert steigen dürfen, an dem sie jetzt bereits schon steht. Lindzen ist seit über 10 Jahren von der Realität widerlegt. Der anhaltende Temperaturanstieg im Bereich von 0,014 bis 0,016 Grad pro Jahr widerspricht seiner These katastrophaler negativer Rückkopplungen völlig. Die Existenz von Eiszeiten widerspricht Lindzens Behauptungen völlig - in Lindzens Paralleluniversum mit einer in Summe negativer Rückkopplung bei Klimaänderungen wird jede Klimaschwankung so stark gedämpft, daß Temperaturschwankungen von mehr als 1 Grad nicht möglich sind, weil es so starke Antriebe seit vielen Millionen Jahren nicht mehr gegeben hat.

2008 sollte angeblich eine neue kleine Eiszeit beginnen. Wo bleibt die denn? 2010 war das wärmste Jahr in der globalen Temperaturzeitreihen, 2011 das wärmste La Nina-Jahr der Zeitreihen. Jeder der sehen kann, sieht, was für einen Unfug Du hier reinkopierst. Du bist noch nicht mal in der Lage, den Unsinn in eigenen Worten auszudrücken, auf Nachfrage kannst Du nicht mal erläutern, was Du da abkopierst und selbst die offensichtlichsten Fehler darin kannst Du auch nach Hinweisen darauf nicht korrigieren. Deine Beiträge im Board sind eine einzige Fehlleistung.

Sehr lesenswert bei Eike ein Artikel vom erfahrenem Experten und Wetterfrosch Puls über die letzten 30 Jahre Temperaturentwicklung auf der Antarktis.

Klima-Kälte-Trend in der Antarktis

Die Pinguine freuen sich, denn es wird nicht wärmer, sondern kälter.



...Das Ergebnis:

Nahezu die gesamte Antarktis ist innerhalb der vergangenen 30 Jahre kälter geworden. Die einzige wesentliche Ausnahme ist die Antarktische Halbinsel...

Antwort auf Beitrag Nr.: 42.665.495 von for4zim am 29.01.12 21:01:57Schau mal f4z, hier die Publikationsliste von Lindzen:

PUBLICATIONS

1. (1965) On the asymmetric diurnal tide. Pure & Appl. Geophys., 62, 142-147.

2. R.S. Lindzen and R.M. Goody (1965). Radiative and photochemical processes in mesospheric dynamics: Part I. Models for radiative and photochemical processes. J. Atmos. Sci., 22, 341-348. [pdf]

3. (1965) The radiative-photochemical response of the mesosphere to fluctuations in radiation. J. Atmos. Sci., 22, 469-478. [pdf]

4. (1966) Radiative and photochemical processes in mesospheric dynamics: Part II. Vertical propagation of long period disturbances at the equator. J. Atmos. Sci., 23, 334-343. [pdf]

5. (1966) Radiative and photochemical processes in mesospheric dynamics. Part III. Stability of a zonal vortex at midlatitudes to axially symmetric disturbances. J. Atmos. Sci., 23, 344-349. [pdf]

6. (1966) Radiative and photochemical processes in mesospheric dynamics. Part IV. Stability of a zonal vortex at midlatitudes to baroclinic waves. J. Atmos. Sci., 23, 350-359. [pdf]

7. (1966) On the theory of the diurnal tide. Mon. Wea. Rev., 94, 295-301. [pdf]

8. (1966) Crude estimate for the zonal velocity associated with the diurnal temperature oscillation in the thermosphere. J. Geophys. Res., 71, 865-870.

9. (1966) On the relation of wave behavior to source strength and distribution in a propagating medium. J. Atmos. Sci., 23, 630-632. [pdf]

10. (1966) Turbulent convection -- Malkus theory. Proc. NCAR Thermal Convection Colloquium. NCAR Tech. Note 24.

11. (1967) Thermally driven diurnal tide in the atmosphere. Q.J. Roy. Met. Soc., 93, 18-42.

12. (1967) Diurnal velocity oscillation in the thermosphere -- reconsidered. J. Geophys. Res., 72, 1591-1598.

13. (1967) On the consistency of thermistor measurements of upper air temperatures. J. Atmos. Sci., 24, 317-318. [pdf]

14. (1967) Mesosphere. In The Encyclopedia of Atmospheric Sciences and Astrogeology, R. Fairbridge, ed. Reinhold Pub. Co., New York, pp 556-559.

15. R.S. Lindzen and D.J. McKenzie (1967). Tidal theory with Newtonian cooling. Pure & Appl. Geophys., 64, 90-96.

16. (1967) Physical processes in the mesosphere. Proc. IAMAP Moscow Meeting on Dynamics of Large Scale Atmospheric Processes, A.S. Monin, ed.

17. (1967) Lunar diurnal atmospheric tide. Nature, 213, 1260-1261.

18. (1967) Planetary waves on beta planes. Mon. Wea. Rev., 95, 441-451. [pdf]

19. (1968) The application of classical atmospheric tidal theory. Proc. Roy. Soc., A, 303, 299-316.

20. (1968) Lower atmospheric energy sources for the upper atmosphere. Met. Mono., 9, 37-46.

21. (1968) Rossby waves with negative equivalent depths -- comments on a note by G.A. Corby. Q.J. Roy. Met. Soc., 94, 402-407.

22. R.S. Lindzen, E.S. Batten and J.W. Kim (1968). Oscillations in atmospheres with tops. Mon. Wea. Rev., 96, 133-140. [pdf]

23. R.S. Lindzen and J.R. Holton (1968). A note on Kelvin waves in the atmosphere. Mon. Wea. Rev., 96, 385-386. [pdf]

24. R.S. Lindzen and T. Matsuno (1968). On the nature of large scale wave disturbances in the equatorial lower stratosphere. J. Met. Soc. Japan, 46, 215-221. [pdf]

25. R.S. Lindzen and J.R. Holton (1968). A theory of quasi-biennial oscillation. J. Atmos. Sci., 26, 1095-1107. [pdf]

26. (1968) Vertically propagating waves in an atmosphere with Newtonian cooling inversely proportional to density. Can. J. Phys., 46, 1835-1840.

27. (1968) Some speculations on the roles of critical level interactions between internal gravity waves and mean flows. In Acoustic Gravity Waves in the Atmosphere, T.M. Georges, ed. U.S. Government Printing Office.

28. (1969) Data necessary for the detection and description of tides and gravity waves in the upper atmosphere. J. Atmos. Ter. Phys., 31, 449-456.

29. R.S. Lindzen and S. Chapman (1969). Atmospheric tides. Sp. Sci. Revs., 10, 3-188. [pdf]

30. R.S. Lindzen and H.L. Kuo (1969). A reliable method for the numerical integration of a large class of ordinary and partial differential equations. Mon. Wea. Rev., 97, 732-734. [pdf]

31. (1969) Vertical momentum transport by large scale disturbances of the equatorial lower stratosphere. J. Met. Soc. Japan., 48, 81-83.

32. (1969) The latke, the hamantasch and the (m)oral crisis in the university. The Jewish Digest, 15, 55-58. [pdf]

33. S. Chapman and R.S. Lindzen (1970). Atmospheric Tides, D. Reidel Press, Dordrecht, Holland, 200 pp.

34. (1970) Internal equatorial planetary scale waves in shear flow. J. Atmos. Sci., 27, 394-407. [pdf]

35. (1970) The application and applicability of terrestrial atmospheric tidal theory to Venus and Mars. J. Atmos. Sci., 27, 536-549. [pdf]

36. (1970) Mean heating of the thermosphere by tides. J. Geophys. Res., 75, 6868-6871.

37. (l970) Internal gravity waves in atmospheres with realistic dissipation and temperature: Part I. Mathematical development and propagation of waves into the thermosphere. Geophys. Fl. Dyn., 1, 303-355. [pdf]

38. R.S. Lindzen and D. Blake (1971). Internal gravity waves in atmospheres with realistic dissipation and temperature: Part II. Thermal tides excited below the mesopause. Geophys. Fl. Dyn., 2, 31-61. [pdf]

39. (1971) Internal gravity waves in atmospheres with realistic dissipation and temperature: Part III. Daily variations in the thermosphere. Geophys. Fl. Dyn., 2, 89-121. [pdf]

40. (197l) Tides and gravity waves in the upper atmosphere. In Mesospheric Models and Related Experiments, G. Fiocco, ed., D. Reidel Pub., Dordrecht, Holland.

41. (1971) Atmospheric Tides. Lec. in App. Math., 14, 293-362.

42. (1971) Some aspects of atmospheric waves in realistic atmosphere. In Atmospheric Model Criteria, R.E. Smith and S.T. Wu, eds., Marshall Space Flight Center, NASA Report SP-305, pp. 71-90.

43. (1971) Equatorial planetary waves in shear: Part I. J. Atmos. Sci., 28, 609-622. [pdf]

44. (1972) Equatorial planetary waves in shear: Part II. J. Atmos. Sci., 29, 1452-1463. [pdf]

45. (1972) Atmospheric tides. In Structure and Dynamics of the Upper Atmosphere, F. Verniani, ed., Elsevier, New York, pp. 21-88.

46. R.S. Lindzen and D. Blake (1972). Lamb waves in the presence of realistic distributions of temperature and dissipation. J. Geophys. Res., 7, 2166-2176.

47. (1972) The 26 month oscillation in the atmosphere. In Geopaedia Encyclopedic Dictionary of Geosciences, Pergamon Press, New York.

48. (1972) Atmospheric tides. In Geopaedia Encyclopedic Dictionary of Geosciences, Pergamon Press, New York. [pdf]

49. J.R. Holton and R.S. Lindzen (1972). An updated theory for the quasibiennial cycle of the tropical stratosphere. J. Atmos. Sci., 29, 1076-1080. [pdf]

50. (1973) Wave-mean flow interaction in the upper atmosphere. Bound. Lay. Met., 4, 327-343.

51. (1973) Hydrodynamics of stratified fluids. Bound. Lay. Met., 4, 227-231.

52. D. Blake and R.S. Lindzen (1973). Effect of photochemical models on calculated equilibria and cooling rates in the stratosphere. Mon. Wea. Rev., 101, 738-802.

53. J.R. Holton and R.S. Lindzen (1973). Internal gravity wave-mean wind interaction. Science, 182, 85-86.

54. R.S. Lindzen and S.S. Hong (1973). Equivalent gravity modes -- an interim evaluation. Geophys. Fl. Dyn., 4, 279-292.

55. R.S. Lindzen and D. Will (1973). An analytic formula for heating due to ozone absorption. J. Atmos. Sci., 30, 513-515. [pdf]

56. (1974) Wave-CISK and tropical meteorology. Proceedings Int'l. Trop. Met. Meeting, 1/31-2/7, Nairobi, Kenya. Amer. Met. Soc. Pub.

57. (1974) Wave-CISK in the tropics. J. Atmos. Sci., 31, 156-179. [pdf]

58. (1974) Wave-CISK and tropical spectra. J. Atmos. Sci., 31, 1447-1449. [pdf]

59. (1974) Stability of a Helmholtz velocity profile in a continuously stratified infinite Boussinesq fluid - applications to a clear air turbulence. J. Atmos. Sci., 31, 1507-1514. [pdf]

60. S. Fels and R.S. Lindzen (1974). Interaction of thermally excited gravity waves with mean flows. Geophys. Fl. Dyn., 6, 149-191. [pdf]

61. R.S. Lindzen and S.S. Hong (1974). Effects of mean winds and horizonal temperature gradients on solar and lunar semidiurnal tides in the atmosphere. J. Atmos. Sci., 31, 1421-1446. [pdf]

62. (1975) Reply to comments by A. Hollingsworth. J. Atmos. Sci., 31, 1643.

63. R.S. Lindzen and C.Y. Tsay (1975). Wave structure of tropical atmosphere over the Marshall Islands during 1 April - 1 July 1958. J. Atmos. Sci., 32, 2009-2021. [pdf]

64. R.S. Lindzen and S.S. Hong (1976) Reply to comments by M. Geller. J. Atmos. Sci., 33, 558. [pdf]

65. (1976) A modal decomposition of the semidiurnal tide in the lower atmosphere. J. Geophys. Res., 81, 2923-2925.

66. R.S. Lindzen and S.S. Hong (1976). Solar semidiurnal tide in the thermosphere. J. Atmos. Sci., 33, 135-153. [pdf]

67. R.S. Lindzen and A.J. Rosenthal (1976). On the instability of Helmholtz velocity profiles in stably stratified fluids when a lower boundary is present. J. Geophys. Res., 81, 1561-1571. [pdf]

68. R.S. Lindzen and K.K. Tung (1976). Banded convective activity and ducted gravity waves. Mon. Wea. Rev., 104, 1602-1617. [pdf]

69. E. Schneider and R.S. Lindzen (1976). A discussion of the parameterization of momentum exchange by cumulus convection. J. Geophys. Res., 81, 3158-3160.

70. E. Schneider and R.S. Lindzen (1976). On the influence of stable stratification on the thermally driven tropical boundary layer. J. Atmos. Sci., 33, 1301-1307. [pdf]

71. J. Forbes and R.S. Lindzen (1976). Atmospheric solar tides and their electrodynamic effects. Part I: The global Sq current system. J. Atmos. Ter. Phys., 38, 897-910.

72. J. Forbes and R.S. Lindzen (1976). Atmospheric solar tides and their electrodynamic effects. Part II: The equatorial electrojet. J. Atmos. Ter. Phys., 38, 911-920.

73. J. Forbes and R.S. Lindzen (1977). Atmospheric solar tides and their electrodynamic effects. Part III: The polarization electric field. J. Atmos. Ter. Phys., 38, 1369-1377.

74. (1977) Some aspects of convection in meteorology. In Problems of Stellar Convection, J.P. Zahn, ed., Springer Verlag, New York, 128-141.

75. R.S. Lindzen and B. Farrell (1977). Some realistic modifications of simple climate models. J. Atmos. Sci., 34, 1487-1501. [pdf]

76. R.S. Lindzen, J. Forbes and S.S. Hong (1977). Semidiurnal Hough modes extensions and their application. Naval Research Lab. Memorandum. Rep. 3442, 65 pp.

77. E. Schneider and R.S. Lindzen (1977). Axially symmetric steady state models of the basic state of instability and climate studies. Part I: Linearized calculations. J. Atmos. Sci., 34, 253-279. [pdf]

78. D. Stevens, R.S. Lindzen and L. Shapiro (1977). A new model of tropical waves incorporating momentum mixing by cumulus convection. Dyn. Atmos. and Oc., 1, 365-425. [pdf]

79. (1978) Effect of daily variations of cumulonimbus activity on the atmospheric semidiurnal tide. Mon. Wea. Rev., 106, 526-533. [pdf]

80. (1979) Atmospheric Tides. Ann. Rev. Earth & Plan. Sci., 7, 199-225.

81. R.S. Lindzen and K.K. Tung (1978). Wave overreflection and shear instability. J. Atmos. Sci., 35, 1626-1632. [pdf]

82. D. Stevens and R.S. Lindzen (1978). Tropical wave-CISK with a moisture budget and cumulus friction. J. Atmos. Sci., 35, 940-961. [pdf]

83. D. Stevens and R.S. Lindzen (1978). Tropical wave-CISK with cumulus friction. Proc. AMS Symp. on Trop. Met., Key Biscayne.

84. R.S. Lindzen and J.M. Forbes (l978). Boundary layers associated with thermal forced planetary waves. J. Atmos. Sci., 35, 1441-1449. [pdf]

85. K.K. Tung and R.S. Lindzen (1979). Theory of stationary long waves. Part I. A simple theory of blocking. Mon. Wea. Rev., 107, 714-734. [pdf]

86. K.K. Tung and R.S. Lindzen (1979). Theory of stationary long waves. Part II. Resonant Rossby waves in the presence of realistic vertical shear. Mon. Wea. Rev. 107, 735-750. [pdf]

87. (1979) On a calculation of the symmetric circulation and its implications for the role of eddies. Proceedings of the NCAR General Circulation Colloquium, 1978. [pdf]

88. (1979) The concept of wave overreflection and its application to baroclinic instability. Proceedings of the NCAR General Circulation Colloquium 1978. [pdf]

89. R.S. Lindzen, B. Farrell and K.K. Tung (1980). The concept of wave overreflection and its application to baroclinic instability. J. Atmos. Sci., 37, 44-63. [pdf]

90. R.S. Lindzen and B. Farrell (1980). Reply. J. Atmos. Sci., 37, 900-902. [pdf]

91. R.S. Lindzen and B. Farrell (1980). A simple approximate result for the maximum growth rate of baroclinic instabilities. J. Atmos. Sci., 37, 1648-1654. [pdf]

92. R.S. Lindzen and B. Farrell (1980). The role of polar regions in global climate, and the parameterization of global heat transport. Mon. Wea. Rev., 108, 2064-2079. [pdf]

93. (1980) Theory of atmospheric tides. J. Meteor. Soc. Japan, 58, 273-278. [pdf]

94. (1980) Wave-CISK and cumulus parameterization in perspective. Proceedings of NAS Symposium on the Impact of GATE on Large-Scale Numerical Modeling of the Atmosphere and Ocean. Woods Hole, MA.

95. E.K. Schneider and R.S. Lindzen (1980). Comments on cumulus friction: Estimated influence on the tropical mean meridional circulation. J. Atmos. Sci., 37, 2803-2806. [pdf]

96. R.S. Lindzen and A.J. Rosenthal (1981). A WKB asymptotic analysis of baroclinic instability. J. Atmos. Sci., 38, 619-629. [pdf]

97. (1981) Turbulence and stress due to gravity wave and tidal breakdown. J. Geophys. Res., 86, 9707-9714. [pdf]

98. (1981) Some remarks on cumulus parameterization. Proceedings of the NASA Clouds in Climate Conference, NASA Report, available NASA/Goddard Institute of Space Studies. [pdf]

99. R.S. Lindzen, A.Y. Hou and B.F. Farrell (1982). The role of convective model choice in calculating the climate impact of doubling CO2. J. Atmos. Sci., 39, 1189-1205. [pdf]

100. R.S. Lindzen, B.F. Farrell and D. Jacqmin (1982). Vacillations due to wave interference. J. Atmos. Sci., 39, 14-23. [pdf]

101. R.S. Lindzen and M.R. Schoeberl (1982). A note on the limits of Rossby wave amplitudes. J. Atmos. Sci., 39, 1171-1174. [pdf]

102. R.S. Lindzen, T. Aso and D. Jacqmin (1982). Linearized calculations of stationary waves in the atmosphere. J. Met. Soc. Japan, 60, 66-78. [pdf]

103. R.S. Lindzen and J. Forbes (1982). Turbulence originating from stable internal waves. J. Geophys. Res., 88, 6549-6553. [pdf]

104. R.S. Lindzen, B. Farrell and A.J. Rosenthal (1983). Absolute barotropic instability and monsoon depressions. J. Atmos. Sci., 40, 1178-1184. [pdf]

105. A. Rosenthal and R.S. Lindzen (1983). Instabilities in a stratified flud having one critical level. Part I: Results. J. Atmos. Sci., 40, 509-520. [pdf]

106. A. Rosenthal and R.S. Lindzen (1983). Instabilities in a stratified fluid having one critical level. Part II: Explanation of gravity wave instabilities as overreflected waves. J. Atmos. Sci., 40, 521-529. [pdf]

107. A. Rosenthal and R.S. Lindzen (1983). Instabilities in a stratified fluid having one critical level. Part III: Kelvin-Helmholtz instabilities as overreflected waves. J. Atmos. Sci., 40, 530-542. [pdf]

108. A. Rosenthal and R.S. Lindzen (1983). Instabilities in a stratified shear flow in the absence of Kelvin-Helmholtz instabilities. Tech. Rept., Center for Met. and Phys. Oceanogr., MIT.

109. R.S. Lindzen, A.J. Rosenthal and B. Farrell (1983). Charney's problem for baroclinic instability applied to barotropic instability. J. Atmos. Sci., 40, 1029-1034. [pdf]

110. R.S. Lindzen, D. Straus and B. Katz (1984). An observational study of large scale atmospheric Rossby waves. J. Atmos. Sci., 41, 1320-1335. [pdf]

111. (1984) Gravity waves in the mesosphere, in Dynamics of the Middle Atmosphere, J.R. Holton and T. Matsuno, eds., Terra Scientific Publishing Company, Tokyo, Japan. [pdf]

112. R.S. Lindzen and H. Teitelbaum (1984). Venus zonal wind above the cloud layer. ICARUS, 57, 356-361. [pdf]

113. (1984) Charney's work on vertically propagating Rossby waves -- with remarks on his early research at MIT, in The Atmosphere - A Challenge, A memorial to Jule Charney, R.S. Lindzen, E.N. Lorenz, and G.W. Platzman, editors, Historical Monograph Series of the Am. Meteor. Soc. appeared in 1990. [pdf]

114. M. Schoeberl and R.S. Lindzen (1984). A numerical simulation of barotropic instability including wave-mean flow interaction. J. Atmos. Sci., 41, 1368-1379. [pdf]

115. R.S. Lindzen and J. Barker (1985). Instability and wave over-reflection in stably stratified shear flow. J. Fluid Mech., 151, 189-217. [pdf]

116. D. Jacqmin and R.S. Lindzen (1985). The causation and sensitivity of the northern winter planetary waves. J. Atmos. Sci., 42, 724-745. [pdf]

117. (1985) Multiple gravity wave breaking levels. J. Atmos. Sci., 42, 301-305. [pdf]

118. (1986) Stationary planetary waves, blocking, and interannual variability. Adv. Geophys., 29, 251-273. [pdf]

119. (1986). A simple model for 100 thousand years oscillations in glaciation. J. Atmos. Sci., 43, 986-996. [pdf]

120. R.S. Lindzen and S. Rambaldi (1986). A study of overreflection in viscous Poiseuille flow. J. Fluid Mech., 152, 355-372. [pdf]

121. P. Ioannou and R.S. Lindzen (1986). Baroclinic instability in the presence of barotropic jets. J. Atmos. Sci., 43, 2999-3014. [pdf]

122. R.S. Lindzen and S. Nigam (1987). On the role of sea surface temperature gradients in forcing low level winds and convergence in the tropics. J. Atmos. Sci., 44, 2418-2436. [pdf]

123. D.M. Straus, R.S. Lindzen and A.M. da Silva (1987). The characteristic Rossby frequency. J. Atmos. Sci., 44, 1100-1105. [pdf]

124. (1987) The development of the theory of the QBO. (Personal Recollections). Bull. Am. Met. Soc., 68, 329-337. [pdf]

125. R.S. Lindzen and B. Farrell (1987). Atmospheric Dynamics. Rev. of Geophys., 25, 323-328. [pdf]

126. A.M. da Silva and R.S. Lindzen (1988). A mechanism for the excitation of ultralong Rossby waves, J. Atmos. Sci., 44, 3625-3639. [pdf]

127. (1988) CO2 feedbacks and the 100K year cycle. Meteorol. Atmos. Phys., 38, 42-49. [pdf]

128. (1988) Instability of plane parallel shear flow (Towards a mechanistic picture of how it works). PAGEOPH, 16, 103-121. [pdf]

129. (1988) Some remarks on cumulus parameterization. PAGEOPH, 16, 123-135. [pdf]

130. (1988) Supersaturation of vertically propagating internal gravity waves. J. Atmos. Sci., 45, 705-711. [pdf]

131. R.S. Lindzen and A.Y. Hou (1988). Hadley circulations for zonally averaged heating centered off the equator. J. Atmos. Sci., 45, 2416-2427. [pdf]

132. R.S. Lindzen and K.-K.- Tung (1988). Comments on 'On the shear instability without over-reflection' by Masaaki Takahashi. J. Met. Soc. Japan, 66, 179-184. [pdf]

133. R. Miller and R.S. Lindzen (1988). Viscous destabilization of stratified shear flow for Ri>1/4. Geophys. Astrophys. Fl. Dyn., 42, 49-91. [pdf]

134. C. Snyder and R.S. Lindzen (1988). Upper level baroclinic instability. J. Atmos. Sci., 45, 2446-2459. [pdf]

135. S. Nigam and R.S. Lindzen (1989). The Sensitivity of stationary waves to variations in the basic state zonal flow. J. Atmos. Sci., 46, 1746-1768. [pdf]

136. R.S. Lindzen and M. Fox-Rabinovitz (1989). Consistent horizontal and vertical resolution. Mon. Wea. Rev., 117, 2575-2583. [pdf]

137. P. Ioannou and R.S. Lindzen (1990). W.K.B.J. approximation of the stability of a frontal mean state. J. Atmos. Sci., 47, 2825-2831. [pdf]

138. (1990) Some coolness concerning global warming. Bull. Amer. Met. Soc., 71, 288-299. [pdf]

139. (1990) Some remarks on global warming. Env. Sci. Tech., 24, 424-427. [pdf]

140. (1990) A skeptic speaks out. EPA Jour., 16, 46-47. [pdf]

141. (1990) Greenhouse warming: science v. consensus. in Environmental Consequences of Energy Production, proceedings of the seventeenth annual Illinois Energy Conference. Publ. by Energy Resources Center, The University of Illinois at Chicago.

142. (1990) Dynamics in Atmospheric Physics, Cambridge University Press, New York, 310pp.

143. (edited with G.W. Platzman and E.N. Lorenz) (1990) The Atmosphere - A Challenge A memorial to Jule Charney, Historical Monograph Series of the Am. Meteor. Soc.

144. (1990) Response: Greenhouse warming and the tropical water budget. Bull. Amer. Met. Soc., 71, 1465-1467. [pdf]

145. C. Snyder and R.S. Lindzen (1991). Quasi-geostrophic wave-CISK in an unbounded baroclinic shear. J. Atmos. Sci., 48, 78-88. [pdf]

146. (with Volkmar Wirth) (1991) Zero potential vorticity gradient basic states in the neighborhood of the equator. in Proceedings of the Fourteenth Annual Climate Diagnostics Workshop. NTIS, US Dept. of Commerce, Springfield, VA pp 256-259. [pdf]

147. (1991) Some remarks on the dynamics of the Jovian atmospheres. Geophys. and Astrophys. Fl. Dyn., 58, 123-141. [pdf]

148. (1991) Prospects for tropical modeling. Proc. ECMWF Conf. on Tropical Meteorology. [pdf]

149. (1991) The Hadley circulation. Proc. ECMWF Conf. on Tropical Meteorology. [pdf]

150. (1991) Some uncertainties with respect to water vapor's role in climate sensitivity. Proceedings of NASA Workshop on the Role of Water Vapor in Climate Processes, October 29 - November 1, 1990 in Easton, Maryland (D.O'C. Starr and H. Melfi, editors). [pdf]

151. Miller, R. and R.S. Lindzen (1992) Organization of rainfall by an unstable jet with application to African waves. J. Atmos. Sci., 49, 1523-1540. [pdf]

152. Hou, A.Y. and R.S. Lindzen (1992) The influence of concentrated heating on the Hadley circulation. J. Atmos. Sci., 49, 1233-1241. [pdf]

153. (1992) Global warming: the origin and nature of the alleged scientific consensus. Regulation, Spring 1992 issue, 87-98. [pdf]

154. A.M. Da Silva and R.S. Lindzen (1993) On the establishment of stationary waves in the northern hemisphere winter. J. Atmos. Sci., 50, 43-61. [pdf]

155. Fox-Rabinovitz, M. and R.S. Lindzen (1993) Numerical experiments on consistent horizontal and vertical resolution for atmospheric models and observing systems. Mon. Wea. Rev., 121, 264--271. [pdf]

156. Sun, D-Z. and R.S. Lindzen (1993) Water vapor feedback and the ice age snowline record. Ann. Geophys., 11, 204-215. [pdf]

157. Sun, D-Z. and R.S. Lindzen (1993) Distribution of tropical tropospheric water vapor. J. Atmos. Sci., 50, 1643-1660. [pdf]

158. (1993) Baroclinic neutrality and the tropopause. J. Atmos. Sci., 50, 1148-1151. [pdf]

159. Ioannou, P. and R.S. Lindzen (1993) Gravitational tides in the outer planets. I. Implications of classical tidal theory. Astrophys. J., 406, 252-265. [pdf]

160. Ioannou, P. and R.S. Lindzen (1993) Gravitational tides in the outer planets. II: Interior calculations and estimation of the tidal dissipation factor. Astrophys. J., 406, 266-278. [pdf]

161. (1993) On the scientific basis for global warming scenarios. Env. Pollution, 83, 125-134. [pdf]

162. (1995) Constraining possibilities versus signal detection. pp 182-186 in Natural Climate Variability on Decade-to-Century Time Scales, Ed. D.G. Martinson, National Academy Press, Washington, DC, 630pp. [pdf]

163. (1993) Commentary (on the benefit of CO2 emission reductions vis a vis climate). in Enhancing Environmental Quality Through Economic Growth, American Council for Capital Formation, Washington, DC, 130-137.

164. (1993) Absence of scientific basis (for global warming scenarios). Research and Exploration (published by National Geographic), 9, 191-200. [pdf]

165. (1993) Paleoclimate sensitivity. Nature, 363, 25-26. [pdf]

166. (1993) Climate dynamics and global change. Ann. Rev. Fl. Mech., 26, 353-378. [pdf]

167. (1993) Gravity wave breaking: legitimizing popular "fudges". Current Contents, 24, 8. [pdf]

168. Sun, D.-Z. and R.S. Lindzen (1994) A PV view of the zonal mean distribution of temperature and wind in the extra-tropical troposphere. J. Atmos. Sci., 51, 757-772. [pdf]

169. Ioannou, P. and R.S. Lindzen (1994) Gravitiational tides on Jupiter: Part III: Atmospheric response and mean flow acceleration. Astrophys. J., 424, 1005-1013. [pdf]

170. (1994) The Eady Problem with zero PV gradient but beta unequal to zero. J. Atmos. Sci., 51, 3221-3226. [pdf]

171. Lindzen, R.S., and W. Pan (1994) A note on orbital control of equator-pole heat fluxes. Clim. Dyn., 10, 49-57. [pdf]

172. (1994) The effect of concentrated PV gradients on stationary waves. J. Atmos. Sci., 51, 3455-3466. [pdf]

173. Kirk-Davidoff, D. and R.S. Lindzen (1994) Meridional heat fluxes inferred from past climates and implications for the tropical heat budget. in preparation.

174. Lindzen, R.S., B. Kirtman, D. Kirk-Davidoff and E. Schneider (1994) Seasonal surrogate for climate. J. Climate, 8, 1681-1684. [pdf]

175. Lindzen, R.S., D.-Z. Sun, E. K.-M. Chang, and P. Ioannou (1994) Properties of a troposphere with zero EPV gradients on isentropes.Proceedings of the Eighteenth Annual Climate Diagnostics Workshop. NTIS, US Dept. of Commerce, Springfield, VA. [pdf]

176. (1994) What we know and what we don't know about global warming. pp 335-358 in International Seminar on Nuclear War and Planetary Emergencies - 18th Session - 1993, K. Goebel, editor, World Scientific, Singapore, 444pp. [pdf]

177. (1994) Classic problems in dynamics revisited. pp 90-98 in The Life Cycles of Extratropical Cyclones, Volume 1 (Grønås, S. and M. Shapiro, Editors), Geophysical Institute, University of Bergen, Bergen, Norway 286 p. [pdf]

178. (1996) The importance and nature of the water vapor budget in nature and models. In Climate Sensitivity to Radiative Perturbations: Physical Mechanisms and their Validation, H. Le Treut (editor), pp. 51-66, NATO ASI Series 1: Global Environmental Change, Vol. 34, Springer-Verlag, Heidelberg, 331p. [pdf]

179. (1995) How cold would we get under CO2-less sky? Phys. Today, 48, 78-80. [pdf]

180. (1996) Science and politics: global warming and eugenics. in Risks, Costs, and Lives Saved, R. Hahn, editor, Oxford University Press, New York, 267pp (Chapter 5, 85-103). [pdf]

181. (1997) Can increasing atmospheric CO2 affect global climate? Proc. Natl..Acad. Sci. USA, 94, 8335-8342. [pdf]

182. G.H. Roe and R.S. Lindzen (1996) Baroclinic adjustment in a two-level model with barotropic shear. J. Atmos. Sci., 53, 2749-2754. [pdf]

183. N. Harnik and R.S. Lindzen (1998) Baroclinic instability in unbounded atmospheres with realistic distributions of PV gradient. J. Atmos. Sci., 55, 344-360. [pdf]

184. R.S. Lindzen and C. Giannitsis (1998) On the climatic implications of volcanic cooling. J. Geophys. Res., 103, 5929-5941. [pdf]

185. E. Schneider, R.S. Lindzen, and B. Kirtman (1997) A tropical influence on global climate. J. Atmos. Sci., 54, pp. 1349-1358. [pdf]

186. W.D. Braswell and R.S. Lindzen (1998) Anomalous short wave absorption and atmospheric tides. Geophys. Res. Ltrs., 25, 1293-1296. [pdf]

187. R.S. Lindzen and G.H. Roe (1997) Correction: The effect of concentrated PV gradients on stationary waves. J. Atmos. Sci., 54, 1815-1818. [pdf]

188. Giannitsis, C. and R.S. Lindzen (2001) Non-linear saturation of topographically forced Rossby waves in a barotropic model. J. Atmos. Sci., 58, 2927-2941. [pdf]

189. Schneider, E.K., B.P. Kirtman and R.S. Lindzen (1999) Upper tropospheric water vapor and climate sensitivity. J. Atmos. Sci.,56, 1649-1658. [pdf]

190. Kirk-Davidoff, D.B. and R.S. Lindzen (2000) An energy balance model based on potential vorticity homogenization. J. Climate, 13, 431-448. [pdf]

191. (1998) Den Problematiska växthuseffekten. Chapter 8 in Klimatpolitik efter Kyotomötet (T.R. Gerholm, editor), SNS Förlag, Stockholm, 175pp. [pdf]

191a. (1999) The Greenhouse Effect and its problems. Chapter 8 in Climate Policy After Kyoto (T.R. Gerholm, editor), Multi-Science Publishing Co., Brentwood, UK, 170pp.

192. A. Solomon and R.S. Lindzen (2000) The impact of resolution on a numerical simulation of barotropic instability. J. Atmos. Sci., 57, 3799-3816. [pdf]

193. D. Straus and R.S. Lindzen (2000) Planetary scale baroclinic instability and the MJO. J. Atmos. Sci., 57, 3609-3626. [pdf]

194. R.S. Lindzen, M.-D. Chou, and A.Y. Hou (2001) Does the Earth have an adaptive infrared iris? Bull. Amer. Met. Soc. 82, 417-432. [pdf]

195. G. Roe and R.S. Lindzen (2001) A one-dimensional model for the interaction between ice sheets and atmospheric stationary waves. Climate Dyn., 17, 479-487. [pdf]

196. G. Roe and R.S. Lindzen (2001) The mutual interaction between continental-scale ice sheets and atmospheric stationary waves. J. Climate, 14, 1450-1465. [pdf]

197. N. Harnik and R.S. Lindzen (2000) Are TOVS temperature retrievals capable of resolving the vertical structure of stratospheric planetary waves? submitted Ann. Geophys.

198. R.S. Lindzen and K. Emanuel (2002) The greenhouse effect. in Encyclopedia of Global Change, Environmental Change and Human Society, Volume 1, Andrew S. Goudie, editor in chief, pp 562-566, Oxford University Press, New York,710 pp. [pdf]

199. Sun, D.-Z., C. Covey, and R.S. Lindzen (2001) Vertical correlations of water vapor in GCMs.. Geophys. Res. Lett., 28 , 259-262. [pdf]

200. Zurita, P. and R.S. Lindzen (2001) The equilibration of short Charney waves: Implications for potential vorticity homogenization in the extratropical troposphere. J. Atmos. Sci., 58, 3443-3462. [pdf]

201. Harnik, N. and R.S. Lindzen (2001) The effect of reflecting surfaces on the vertical structure and variability of stratospheric planetary waves. J. Atmos. Sci., 58, 2872-2894. [pdf]

202. Lindzen, R.S. and C. Giannitsis (2002) Reconciling observations of global temperature change. Geophys. Res. Ltrs. 29, (26 June) 10.1029/2001GL014074 [pdf]

203. Lindzen, R.S. (2002a) Do Deep Ocean Temperature Records Verify Models? Geophys. Res. Ltrs., 29, 10.1029/2001GL014360. [pdf]

204. Lindzen, R.S. (2002b) Richard J. Reed and Atmospheric Tides in A Half Century of Progress in Meteorology: A Tribute to Richard J. Reed, R. Johnson, editor, American Meteorological Society Monograph.

205. Chou, M.-D., R.S. Lindzen, and A.Y. Hou (2002a) Impact of Albedo Contrast between Cirru and Boundary-Layer Clouds on Climate Sensitivity. Atmospheric Chemistry and Physics, 2, 99-101.

206. Lindzen, R.S., M.-D. Chou, and A.Y. Hou (2002) Comments on "No evidence for iris." Bull. Amer. Met. Soc., 83, 1345-1348. [pdf]

207. Chou, M.-D., R.S. Lindzen, and A.Y. Hou (2002) Reply to: "Tropical cirrus and water vapor: an effective Earth infrared iris feedback?" Atmospheric Chemistry and Physics, 2, 99-101. [pdf]

208. Chou, M.-D., R.S. Lindzen, and A.Y. Hou (2002b) Comments on "The Iris hypothesis: A negative or positive cloud feedback?" J. Climate, 15, 2713-2715. [pdf]

209. Bell, T. L., M.-D. Chou, R.S. Lindzen, and A.Y. Hou (2002) Response to Comment on "Does the Earth Have an Adaptive Infrared Iris?" Bull. Amer. Met. Soc., 83, 598-600. [pdf]

210. Chou, M.-D. and R.S. Lindzen (2002) Comments on Tropical convection and the energy balance of the top of the atmosphere. J. Climate, 15, 2566-2570. [pdf]

211. Zurita-Gotor, P., and R.S. Lindzen (2004) Baroclinic equilibration and the maintenance of the momentum balance. Part I: barotropic analog. J. Atmos. Sci., 61, 1469-1482. [pdf]

212. Zurita-Gotor, P., and R.S. Lindzen (2004) Baroclinic equilibration and the maintenance of the momentum balance. Part II: 3-D results. J. Atmos. Sci., 61, 1483-1499. [pdf]

213. Giannitsis, C. and R.S. Lindzen (2009) Non-linear saturation of vertically propagating Rossby waves. J. Atmos. Sci., 66, 915-934.

214. Lindzen, R.S. (2003) The Interaction of Waves and Convection in the Tropics. J. Atmos. Sci., 60, 3009-3020. [pdf]

215. Chou, M.-D. and R.S. Lindzen (2005) Comments on “Examination of the Decadal Tropical Mean ERBS Nonscanner Radiation Data for the Iris Hypothesis”. J. Clim. 18, 2123-2127.

216. Kennel, C.F., R.S. Lindzen, and W. Munk (2004) William Aaron Nierenberg (1919-2000) - A biographical memoir. Biographical Memoirs of the N.A.S., 85, 1-20.

217. Lindzen, R.S. (2005) Understanding common climate claims. in Proceedings of the 34th International Seminar on Nuclear War and Planetary Emergencies, R. Raigaini, editor, World Scientific Publishing Co., Singapore, 472pp. (pp. 189-210).

218. Zurita-Gotor, P., and R.S. Lindzen (2006) A generalized momentum framework for looking at baroclinic circulations. J. Atmos. Sci. 63, 2036-2055.

219. Zurita-Gotor, P., and R.S. Lindzen (2007) Theories of baroclinic adjustment and eddy equilibration. In Recent Results in General Circulation Theory. T. Schneider and A. Sobel, Editors. Princeton University Press.

220. Rondanelli, R., V. Thayalan, R. S. Lindzen, and M. T. Zuber (2006) Atmospheric contribution to the dissipation of the gravitational tide of Phobos on Mars. Geophys. Res. Ltrs.

221. Lindzen, R.S. (2008) An Exchange on Climate Science and Alarm. In Global Warming: Looking Beyond Kyoto (Ernesto Zedillo, editor), Brookings Institution Press, Washington, DC. [pdf]

222. Lindzen, R.S. (2006) Quelques observations sur la répartition des juifs dans Paris intra-muros. Submitted to L’Arche.

223. Lindzen, R.S. and R. Rondanelli (2006) On the need for normalizing satellite cloud data when applying results to climate. In preparation.

224. Lindzen, R.S. (2006) Climate of Fear, Wall Street Journal, April 12, 2006.

225. Lindzen, R.S. (2006) There is no ‘consensus’ on global warming, Wall Street Journal, June 26, 2006.

226. Lindzen, R.S. (2006) Debunking the Myth. Business Today, 43, 66-67.

227. Robert M. Carter, C. R. de Freitas, Indur M. Goklany, David Holland & Richard S. Lindzen (2006) The Stern Review: A Dual Critique, Part I: The Science, World Economics, 7, 167-198.

228. Lindzen, R.S., 2007: Taking greenhouse warming seriously. Energy & Environment, 18, 937-950.

229. Robert M. Carter, C. R. de Freitas, Indur M. Goklany, David Holland & Richard S. Lindzen (2006) The Stern Review: A Dual Critique, Part I: The Science, World Economics, 7, 167-198.

229. Lindzen, R.S. (2007) Taking Greenhouse Warming Seriously, Energy & Environment, 18, 937-950. [pdf]

230. Rondanelli, R., and R. S. Lindzen (2008), Observed variations in convective precipitation fraction and stratiform area with sea surface temperature. J. Geophys. Res., 113, D16119, doi:10.1029/2008JD010064. [pdf]

231. Rondanelli, R.F. and R.S. Lindzen (2008) Comments on "Variations of tropical upper tropospheric clouds with sea surface temperature and implications for radiative effects" by Su et al. [2008], J. Geophys. Res, 115, D06202, doi:10.1029/2008JD011189.

232. Lindzen, R.S. (2008) Climate science: is it designed to answer questions. arXiv:0809.3762, available as pdf file on www.arxiv.org, Physics and Society.

233. Choi, Y-S., C. Ho, J. Kim, and R. S. Lindzen (2010), Satellite retrievals of (quasi-)spherical particles at cold temperatures, Geophys. Res. Lett., 37, L05703, doi:10.1029/2009GL041818. [pdf]

234. Rondanelli, R. and R.S. Lindzen, 2010:Can thin cirrus clouds in the tropics provide a solution to the faint young Sun paradox?, J.Geophys. Res,. 115, D02108, 12 pp. [pdf]

235. Lindzen, R.S. and Y.-S. Choi, 2009: On the determination of climate feedbacks from ERBE data, Geophys. Res. Ltrs., 36, L16705, doi:10.1029/2009GL039628. [pdf]

236. Lindzen, R.S. and Y.-S. Choi, 2011: On the observational determination of climate sensitivity and its implications. in press Asian Pacific Journal of Atmospheric Science. [pdf]

237. Y.‑S. Choi, R. S. Lindzen, C.‑H. Ho, and J. Kim, 2010: Space observations of cold‑cloud phase change. Proc .Nat .Acad. Sci., 107, 11211-11216. [pdf]

238. Y.-S. Choi, C.H. Ho, S.-W. Kim and R.S. Lindzen, 2010: Observational diagnosis of cloud phase in the winter antarctic atmosphere for parameterizations in climate models. Adv. Atm. Sci., 27, 1233-1245. [pdf]

239. Covey, C., A. Dai, D. Marsh, and R.S. Lindzen, 2010: The Surface-Pressure Signature of Atmospheric Tides in Modern Climate Models, J. Atmos. Sci., 68, 495-514, DOI: 10.1175/2010JAS3560.1.

240. Choi, Y.-S., H. Cho, R.S. Lindzen, and S.-K. Park (2011) An effect od non-feedback cloud variations on determination of cloud feedback. Meteorology and Atmospheric Physics, submitted.

http://www-eaps.mit.edu/faculty/lindzen/PublicationsRSL.html







Und dagegen steht deine Erstdsemester Grundstudiums-Statistik mit der du was weiss ich belegen willst und mit der du schlauer sein wilst als Lindzen.

Ich bitte dich f4z.

Antwort auf Beitrag Nr.: 42.664.735 von for4zim am 29.01.12 16:46:05Dein Vorzeigeapostel, äh, Vorzeigeskeptiker Muller verdient ja ordentlich mit den postulierten Klimakatastrophen.
Das erinnert mich an Edenhofer aus dem PIk nach dem es garnicht ums Klima geht.

http://www.mullerandassociates.com/

Antwort auf Beitrag Nr.: 42.665.378 von mouse_potato am 29.01.12 20:26:45Wie wäre es mich Sachkenntnis? Ob die globale Temperatur derzeit ansteigt, läßt sich entscheiden, wenn man eine signifikante Zahl von Jahren nimmt und eine lineare Regression durchführt. So etwa ab 20 Jahren aufwärts ist das mit Erfolg gekrönt. Dafür braucht man niemandem zu vertrauen, nur Grundkenntnisse der Statistik. Mach es und hör auf, Unsinn zu schreiben.

Antwort auf Beitrag Nr.: 42.664.685 von for4zim am 29.01.12 16:28:49Antwort Zitat
Antwort auf Beitrag Nr.: 42.661.476 von depodoc am 28.01.12 02:12:47
Wie bitte?

Schon mal etwas von potentieller Energie gehört?

Schon mal etwas vom Föhn gehört ?
Eiskalte Luft die durch Abregnen an Berghängen fast trocken ist, sinkt auf z.B. München herab und sorgt dort für wärmere Temperaturen. Die "Wärmeenergie" dieser abgesunkenen Luftpakete hat das Paket schon beim Aufstieg innegehabt wobei zu dieser Erwärmung der angebliche TE mitgewirkt hat.

In Nepal, dessen gesamte Landfläche auf durchschnittlich 3 Km Höhe liegt, kann der TE wg. dieser Höhe nicht so "stark" sein und aus 240 W/qm 390 W/qm machen wie bei NN damit am TOA 240 W/qm emittiert werden. Die "Leistung", bzw. der "Erwärmungseffekt" des TE ist auf der Landfläche Nepals geringer. Nun nimmt aber ein Luftpaket mit 268,66 K am Boden Nepals die Temperatur 288,15 K bei NN an, wenn es auf NN abgesenkt wird.
Das Paket wird aber nicht kühler, obwohl es kühler werden müsste, weil der TE in Nepal geringer ist.

Obwohl du studierter Atmosphärenphysiker bist; von mir als Laie ganz langsam und einfach:
Bei NN besteht die "Leistung" des TE darin, aus 240 W/qm 150 W/qm mehr, also 390 W/qm Bodenemission zu machen damit am TOA 240 W/qm emittiert werden. Die Bodentemperatur beträgt dabei 288 K.

In Nepal auf 3 Km Höhe fehlen 3 Km "Weglänge" um die bei NN vollbrachte "Leistung" eines TE zu erbringen, dort wird ein geringerer Energiebetrag "erzeugt", so dass bei einem Absinken auf NN die 288 K nicht erreicht werden können.
Ein Luftpaket von Nepals Boden nimmt aber auf NN 288 K an, so dass dieses der Beweis ist, dass es keinen TE geben kann.

Antwort auf Beitrag Nr.: 42.665.344 von for4zim am 29.01.12 20:11:14
Ja wenn ich deine Qualifikation nicht beurteilen kann und die von Lindzen auch nicht dann muss ich wohl nach anderen Kriterien gehen?

Vielleicht wer aus meiner Sicht vertrauenswürdiger ist?

Nicht persönlich nehmen aber das bist nicht du.

Antwort auf Beitrag Nr.: 42.665.338 von for4zim am 29.01.12 20:09:28Met Office releases new figures which show no warming in 15 years

http://www.dailymail.co.uk/sciencetech/article-2093264/Forge…

Ich weiss es ist bitter aber du solltest langsam den Tatsachen ins Auge sehen. Die Glaubwürdigkeit von katastrophalem AGW zerinnt wie Sand zwischen den Fingern, bald ist nichts mehr übrig davon.

Antwort auf Beitrag Nr.: 42.664.777 von mouse_potato am 29.01.12 17:07:32Ich kann in einem gewissen Rahmen beurteilen, ob Lindzen qualifiziert zu seinen Aussagen ist, weil ich einige dieser Aussagen selbst nachprüfen kann und außerdem, weil ich selbst wissenschaftlich gearbeitet habe. Hingegen gibt es nichts, was einen mouse_potato dazu qualifiziert, die Qualifikation eines Lindzen zu beurteilen!