Climate Change 1995: The Science of Climate Change: Contribution of Working Group I to the Second Assessment Report of the Intergovernmental Panel on Climate ChangeCambridge University Press, 1996 M06 6 - 572 pages The IPCC reports represent the primary source of scientific and technical advice for the implementation of the UN Framework Convention on Climate Change. This assessment therefore forms the standard scientific reference for all those concerned with climate change and its consequences, including policy makers in governments and industry worldwide, and researchers and senior-level students in environmental science, meteorology, climatology, biology, ecology and atmospheric chemistry. |
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Page 31
... uncertainties in model simulations arise from the difficulties in adequately representing clouds and their radiative properties , the coupling between the atmosphere and the ocean , and detailed processes at the land surface . ( i ) The ...
... uncertainties in model simulations arise from the difficulties in adequately representing clouds and their radiative properties , the coupling between the atmosphere and the ocean , and detailed processes at the land surface . ( i ) The ...
Page 34
... uncertainties Warming from radiative forcing will be modified by climate feedbacks which may either amplify ( a positive feedback ) or reduce ( a negative feedback ) the initial response . The likely equilibrium response of global ...
... uncertainties Warming from radiative forcing will be modified by climate feedbacks which may either amplify ( a positive feedback ) or reduce ( a negative feedback ) the initial response . The likely equilibrium response of global ...
Page 36
... uncertainties remain ; for example , no model has incorporated the full range of anthropogenic forcing effects . E.2 ... uncertainties in the evolution and magnitude of both human and natural forcings , and in the characteristics of ...
... uncertainties remain ; for example , no model has incorporated the full range of anthropogenic forcing effects . E.2 ... uncertainties in the evolution and magnitude of both human and natural forcings , and in the characteristics of ...
Page 44
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Page 64
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Contents
XXXI | 37 |
XXXV | 39 |
XXXVI | 40 |
XXXVII | 41 |
XXXIX | 42 |
XL | 43 |
XLI | 44 |
XLII | 47 |
CLXVII | 242 |
CLXIX | 243 |
CLXXVI | 244 |
CLXXVIII | 245 |
CLXXX | 246 |
CLXXXII | 247 |
CLXXXIV | 251 |
CLXXXV | 252 |
XLIV | 51 |
XLV | 53 |
XLVI | 55 |
XLVIII | 56 |
XLIX | 57 |
LI | 58 |
LIV | 59 |
LV | 60 |
LVI | 61 |
LVIII | 65 |
LIX | 71 |
LX | 72 |
LXII | 76 |
LXIV | 78 |
LXV | 79 |
LXVI | 80 |
LXVII | 81 |
LXVIII | 82 |
LXXI | 83 |
LXXIII | 84 |
LXXV | 86 |
LXXVII | 87 |
LXXX | 90 |
LXXXI | 91 |
LXXXII | 92 |
LXXXIII | 99 |
LXXXV | 101 |
LXXXVI | 102 |
LXXXVII | 103 |
LXXXVIII | 104 |
LXXXIX | 105 |
XC | 107 |
XCIII | 108 |
XCV | 109 |
XCVI | 110 |
XCVII | 111 |
XCVIII | 114 |
CI | 116 |
CII | 118 |
CIV | 120 |
CV | 129 |
CVI | 133 |
CVII | 137 |
CVIII | 138 |
CIX | 139 |
CX | 142 |
CXI | 143 |
CXII | 144 |
CXIII | 145 |
CXVII | 146 |
CXVIII | 147 |
CXX | 148 |
CXXI | 152 |
CXXIII | 154 |
CXXV | 155 |
CXXVI | 156 |
CXXVII | 157 |
CXXIX | 158 |
CXXXI | 159 |
CXXXV | 161 |
CXXXVI | 163 |
CXXXVIII | 164 |
CXLIII | 165 |
CXLV | 166 |
CXLVI | 167 |
CXLVII | 168 |
CL | 169 |
CLII | 170 |
CLIII | 173 |
CLIV | 175 |
CLVI | 177 |
CLVII | 189 |
CLVIII | 223 |
CLIX | 227 |
CLX | 229 |
CLXIII | 238 |
CLXXXVI | 253 |
CLXXXVII | 254 |
CLXXXVIII | 255 |
CXCII | 257 |
CXCIII | 258 |
CXCIV | 260 |
CXCVII | 261 |
CXCVIII | 263 |
CC | 264 |
CCI | 265 |
CCIV | 267 |
CCV | 268 |
CCVII | 269 |
CCVIII | 270 |
CCIX | 279 |
CCXI | 353 |
CCXII | 357 |
CCXIII | 359 |
CCXV | 364 |
CCXVII | 365 |
CCXVIII | 367 |
CCXIX | 368 |
CCXX | 371 |
CCXXI | 373 |
CCXXII | 374 |
CCXXIII | 375 |
CCXXV | 376 |
CCXXVI | 377 |
CCXXVII | 378 |
CCXXVIII | 379 |
CCXXX | 380 |
CCXXXII | 382 |
CCXXXIII | 383 |
CCXXXVII | 385 |
CCXXXVIII | 387 |
CCXXXIX | 388 |
CCXLI | 389 |
CCXLII | 390 |
CCXLIII | 391 |
401 | |
CCXLV | 405 |
CCXLVI | 407 |
CCXLVIII | 409 |
CCLI | 411 |
CCLII | 412 |
CCLIII | 413 |
CCLIV | 414 |
CCLV | 415 |
CCLVI | 416 |
CCLVII | 417 |
CCLIX | 418 |
CCLX | 419 |
CCLXI | 424 |
CCLXII | 425 |
CCLXIII | 428 |
CCLXIV | 429 |
CCLXV | 431 |
CCLXVI | 432 |
CCLXVII | 433 |
CCLXVIII | 439 |
CCLXX | 477 |
CCLXXII | 511 |
CCLXXIII | 515 |
CCLXXIV | 517 |
CCLXXV | 519 |
CCLXXVI | 521 |
CCLXXVII | 524 |
CCLXXVIII | 527 |
CCLXXX | 529 |
CCLXXXII | 531 |
CCLXXXIV | 545 |
CCLXXXVI | 559 |
CCLXXXVIII | 563 |
CCXC | 565 |
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Common terms and phrases
aerosol aerosol forcing albedo analysis anomalies anthropogenic AOGCM areas Assessment atmospheric CO2 average biogeochemical carbon cycle century Chapter circulation model Clim climate change climate models climate sensitivity climate system climate variability cloud CO₂ convection coupled models decades decrease distribution dynamics ecosystems effects El Niņo-Southern Oscillation emission scenarios ENSO estimates experiments feedbacks Figure flux adjustment Geophys glaciers global climate global mean temperature global warming greenhouse gases GtC/yr GWPS high latitudes ice sheet increase interannual IPCC land land-surface marine Meteorological methane natural variability North Atlantic Northern Hemisphere observed ocean models Pacific parametrization patterns ppmv precipitation processes projections radiation radiative forcing rainfall range recent Research response scale sea ice sea level change sea level rise Section simulations soil moisture solar spatial stabilisation stratospheric studies sulphate aerosols surface air temperature temperature change terrestrial thermohaline circulation time-scales trends tropical tropospheric ozone uncertainties variations water vapour Wigley