IPCC_Managing Risks of Extreme Events.pdf - Climate Access

More documents

Recommendations

Info

Changes in Climate Extremes and their Impacts on the Natural Physical EnvironmentChapter 3Europe and the Mediterranean region, central Europe, central North America, Central America and Mexico, northeastBrazil, and southern Africa. Definitional issues, lack of observational data, and the inability of models to include all thefactors that influence droughts preclude stronger confidence than medium in the projections. Elsewhere there is overalllow confidence because of inconsistent projections of drought changes (dependent both on model and dryness index).There is low confidence in projected future changes in dust storms although an increase could be expected wherearidity increases. [3.5.1, 3.5.8; Box 3-3; Table 3-3; Figure 3-10]There is high confidence that changes in heat waves, glacial retreat, and/or permafrost degradation willaffect high-mountain phenomena such as slope instabilities, mass movements, and glacial lake outburstfloods. There is also high confidence that changes in heavy precipitation will affect landslides in someregions. There is low confidence regarding future locations and timing of large rock avalanches, as these depend onlocal geological conditions and other non-climatic factors. There is low confidence in projections of an anthropogeniceffect on phenomena such as shallow landslides in temperate and tropical regions, because these are stronglyinfluenced by human activities such as land use practices, deforestation, and overgrazing. [3.5.6, 3.5.7]The small land area and often low elevation of small island states make them particularly vulnerable torising sea levels and impacts such as inundation, shoreline change, and saltwater intrusion intounderground aquifers. Short record lengths and the inadequate resolution of current climate models to representsmall island states limit the assessment of changes in extremes. There is insufficient evidence to assess observedtrends and future projections in rainfall across the small island regions considered here. There is medium confidence inprojected temperature increases across the Caribbean. The very likely contribution of mean sea level rise to increasedextreme coastal high water levels, coupled with the likely increase in tropical cyclone maximum wind speed, is aspecific issue for tropical small island states. [3.4.4, 3.5.3; Box 3-4]This chapter does not provide assessments of projected changes in extremes at spatial scales smaller thanfor large regions. These large-region projections provide a wider context for national or local projections,where these exist, and where they do not exist, a first indication of expected changes, their associateduncertainties, and the evidence available. [3.2.3.1]114
Chapter 3Changes in Climate Extremes and their Impacts on the Natural Physical Environment3.1. Weather and Climate EventsRelated to DisastersA changing climate leads to changes in the frequency, intensity, spatialextent, duration, and timing of weather and climate extremes, and canresult in unprecedented extremes (Sections 3.1.7, 3.3, 3.4, and 3.5). Aswell, weather or climate events, even if not extreme in a statistical sense,can still lead to extreme conditions or impacts, either by crossing a criticalthreshold in a social, ecological, or physical system, or by occurringsimultaneously with other events (Sections 3.1.2, 3.1.3, 3.1.4, 3.3, 3.4,and 3.5). Some climate extremes (e.g., droughts, floods) may be the resultof an accumulation of weather or climate events that are, individually,not extreme themselves (though their accumulation is extreme, e.g.,Section 3.1.2). A weather system such as a tropical cyclone can have anextreme impact, depending on where and when it approaches landfall,even if the specific cyclone is not extreme relative to other tropicalcyclones. Conversely, not all extremes necessarily lead to serious impacts.Changes in extremes can also be directly related to changes in meanclimate, because mean future conditions in some variables are projectedto lie within the tails of present-day conditions (Section 3.1.6). Hence,the definition of extreme weather and climate events is complex(Section 3.1.2 and Box 3-1) and the assessment of changes in climatethat are relevant to extreme impacts and disasters needs to considerseveral aspects. Those related to vulnerability and exposure areaddressed in Chapters 2 and 4 of this report, while we focus here on thephysical dimension of these events.Many weather and climate extremes are the result of natural climatevariability (including phenomena such as El Niño), and natural decadalor multi-decadal variations in the climate provide the backdrop foranthropogenic climate changes. Even if there were no anthropogenicchanges in climate, a wide variety of natural weather and climateextremes would still occur.3.1.1. Categories of Weather and Climate EventsDiscussed in this ChapterThis chapter addresses changes in weather and climate events relevantto extreme impacts and disasters grouped into the following categories:1) Extremes of atmospheric weather and climate variables (temperature,precipitation, wind)2) Weather and climate phenomena that influence the occurrence ofextremes in weather or climate variables or are extremes themselves(monsoons, El Niño and other modes of variability, tropical andextratropical cyclones)3) Impacts on the natural physical environment (droughts, floods,extreme sea level, waves, and coastal impacts, as well as otherphysical impacts, including cryosphere-related impacts, landslides,and sand and dust storms).The distinction between these three categories is somewhat arbitrary, andthe categories are also related. In the case of the third category, ‘impactson the natural physical environment,’ a specific distinction betweenthese events and those considered under ‘extremes of atmosphericweather and climate variables’ is that they are not caused by variationsin a single atmospheric weather and climate variable, but are generallythe result of specific conditions in several variables, as well as of somesurface properties or states. For instance, both floods and droughts arerelated to precipitation extremes, but are also impacted by otheratmospheric and surface conditions (and are thus often better viewed ascompound events, see Section 3.1.3). Most of the impacts on the naturalphysical environment discussed in the third category are extremesthemselves, as well as often being caused or affected by atmosphericweather or climate extremes. Another arbitrary choice made here is theseparate category for phenomena (or climate or weather systems) thatare related to weather and climate extremes, such as monsoons, El Niño,and other modes of variability. These phenomena affect the large-scaleenvironment that, in turn, influences extremes. For instance, El Niñoepisodes typically lead to droughts in some regions with, simultaneously,heavy rains and floods occurring elsewhere. This means that alloccurrences of El Niño are relevant to extremes and not only extremeEl Niño episodes. A change in the frequency or nature of El Niño episodes(or in their relationships with climate in specific regions) would affectextremes in many locations simultaneously. Similarly, changes in monsoonpatterns could affect several countries simultaneously. This is especiallyimportant from an international disaster perspective because copingwith disasters in several regions simultaneously may be challenging(see also Section 3.1.3 and Chapters 7 and 8).This section provides background material on the characterization anddefinition of extreme events, the definition and analysis of compoundevents, the relevance of feedbacks for extremes, the approach used forthe assignment of confidence and likelihood assessments in this chapter,and the possibility of ‘surprises’ regarding future changes in extremes.Requirements and methods for analyzing changes in climate extremesare addressed in Section 3.2. Assessments regarding changes in theclimate variables, phenomena, and impacts considered in this chapterare provided in Sections 3.3 to 3.5. Table 3-1 provides summaries ofthese assessments for changes at the global scale. Tables 3-2 and 3-3(found on pages 191-202) provide more regional detail on observed andprojected changes in temperature extremes, heavy precipitation, anddryness (with regions as defined in Figure 3-1). Note that impacts onecosystems (e.g., bushfires) and human systems (e.g., urban flooding)are addressed in Chapter 4.3.1.2. Characteristics of Weather and Climate EventsRelevant to DisastersThe identification and definition of weather and climate events that arerelevant from a risk management perspective are complex and dependon the stakeholders involved (Chapters 1 and 2). In this chapter, we focuson the assessment of changes in ‘extreme climate or weather events’(also referred to herein as ‘climate extremes’ see below and Glossary),which generally correspond to the ‘hazards’ discussed in Chapter 1.115
Page 1:
MANAGING THE RISKS OF EXTREMEEVENTS
Page 5:
Managing the Risks of Extreme Event
Page 9 and 10:
I Foreword and Preface
Page 12 and 13:
Prefacein understanding and managin
Page 17 and 18:
Summary for PolicymakersBox SPM.1 |
Page 19 and 20:
Summary for PolicymakersB.or sub-na
Page 21 and 22:
Summary for PolicymakersIt is likel
Page 23:
Summary for Policymakersmicro-insur
Page 27 and 28:
Summary for PolicymakersIt is very
Page 29 and 30:
Summary for PolicymakersOther low-r
Page 31 and 32:
Summary for PolicymakersTable SPM.1
Page 33 and 34:
Summary for PolicymakersBox SPM.2 |
Page 35:
III Chapters 1 to 9
Page 38 and 39:
Climate Change: New Dimensions in D
Page 40 and 41:
Page 42 and 43:
Page 44 and 45:
Page 46 and 47:
Page 48 and 49:
Page 50 and 51:
Page 52 and 53:
Page 54 and 55:
Page 56 and 57:
Page 58 and 59:
Page 60 and 61:
Page 62 and 63:
Page 64 and 65:
Page 66 and 67:
Page 68 and 69:
Page 70 and 71:
Page 72 and 73:
Page 74 and 75:
Page 76 and 77: Climate Change: New Dimensions in D
Page 78 and 79: Determinants of Risk: Exposure and
Page 122 and 123: Changes in Climate Extremes and the
Page 150 and 151: 138much of the continental United S
Page 176 and 177:
Changes in Climate Extremes and the
Page 178 and 179:
Page 180 and 181:
Page 182 and 183:
Page 184 and 185:
Page 186 and 187:
Page 188 and 189:
Page 190 and 191:
Page 192 and 193:
Page 194 and 195:
Page 196 and 197:
Page 198 and 199:
Page 200 and 201:
Page 202 and 203:
Page 204 and 205:
Page 206 and 207:
Page 208 and 209:
Page 210 and 211:
Page 212 and 213:
Page 214 and 215:
Page 216 and 217:
Page 218 and 219:
Page 220 and 221:
Page 222 and 223:
Page 224 and 225:
Page 226 and 227:
Page 228 and 229:
Page 230 and 231:
Page 232 and 233:
Page 234 and 235:
Page 236 and 237:
Page 238 and 239:
Page 240 and 241:
Page 242 and 243:
Page 244 and 245:
Changes in Impacts of Climate Extre
Page 246 and 247:
Page 248 and 249:
Page 250 and 251:
Page 252 and 253:
Page 254 and 255:
Page 256 and 257:
Page 258 and 259:
Page 260 and 261:
Page 262 and 263:
Page 264 and 265:
Page 266 and 267:
Page 268 and 269:
Page 270 and 271:
Page 272 and 273:
Page 274 and 275:
Page 276 and 277:
Page 278 and 279:
Page 280 and 281:
Page 282 and 283:
Page 284 and 285:
Page 286 and 287:
Page 288 and 289:
Page 290 and 291:
Page 292 and 293:
Page 294 and 295:
Page 296 and 297:
Page 298 and 299:
Page 300 and 301:
Page 302 and 303:
Page 304 and 305:
Managing the Risks from Climate Ext
Page 306 and 307:
Page 308 and 309:
Page 310 and 311:
Page 312 and 313:
Page 314 and 315:
Page 316 and 317:
Page 318 and 319:
Page 320 and 321:
Page 322 and 323:
Page 324 and 325:
Page 326 and 327:
Page 328 and 329:
Page 330 and 331:
Page 332 and 333:
Page 334 and 335:
Page 336 and 337:
Page 338 and 339:
Page 340 and 341:
Page 342 and 343:
Page 344 and 345:
Page 346 and 347:
Page 348 and 349:
Page 350 and 351:
Page 352 and 353:
National Systems for Managing the R
Page 354 and 355:
Page 356 and 357:
Page 358 and 359:
Page 360 and 361:
Page 362 and 363:
Page 364 and 365:
Page 366 and 367:
Page 368 and 369:
Page 370 and 371:
Page 372 and 373:
Page 374 and 375:
Page 376 and 377:
Page 378 and 379:
Page 380 and 381:
Page 382 and 383:
Page 384 and 385:
Page 386 and 387:
Page 388 and 389:
Page 390 and 391:
Page 392 and 393:
Page 394 and 395:
Page 396 and 397:
Page 398 and 399:
Page 400 and 401:
Page 402 and 403:
Page 404 and 405:
Page 406 and 407:
Managing the Risks: International L
Page 408 and 409:
Page 410 and 411:
Page 412 and 413:
Page 414 and 415:
Page 416 and 417:
Page 418 and 419:
Page 420 and 421:
Page 422 and 423:
Page 424 and 425:
Page 426 and 427:
Page 428 and 429:
Page 430 and 431:
Page 432 and 433:
Page 434 and 435:
Page 436 and 437:
Page 438 and 439:
Page 440 and 441:
Page 442 and 443:
Page 444 and 445:
Page 446 and 447:
Page 448 and 449:
Page 450 and 451:
Toward a Sustainable and Resilient
Page 452 and 453:
Page 454 and 455:
Page 456 and 457:
Page 458 and 459:
Page 460 and 461:
Page 462 and 463:
Page 464 and 465:
Page 466 and 467:
Page 468 and 469:
Page 470 and 471:
Page 472 and 473:
Page 474 and 475:
Page 476 and 477:
Page 478 and 479:
Page 480 and 481:
Page 482 and 483:
Page 484 and 485:
Page 486 and 487:
Page 488 and 489:
Page 490 and 491:
Page 492 and 493:
Page 494 and 495:
Page 496 and 497:
Page 498 and 499:
Page 500 and 501:
Case StudiesChapter 9Table of Conte
Page 502 and 503:
Case StudiesChapter 99.1. Introduct
Page 504 and 505:
Case StudiesChapter 9••••
Page 506 and 507:
Case StudiesChapter 99.2.1.2.3. Hea
Page 508 and 509:
Case StudiesChapter 9preparedness c
Page 510 and 511:
Case StudiesChapter 99.2.2.5. Outco
Page 512 and 513:
Case StudiesChapter 9practices at b
Page 514 and 515:
Case StudiesChapter 9to implement s
Page 516 and 517:
Case StudiesChapter 9lined by the w
Page 518 and 519:
Case StudiesChapter 94.5 million af
Page 520 and 521:
Case StudiesChapter 9are typically
Page 522 and 523:
Case StudiesChapter 9heightens vuln
Page 524 and 525:
Case StudiesChapter 9multi-hazard r
Page 526 and 527:
Case StudiesChapter 9Bank, 2005b).
Page 528 and 529:
Case StudiesChapter 9Some federal-l
Page 530 and 531:
Case StudiesChapter 9develop in a m
Page 532 and 533:
Case StudiesChapter 9Most states ha
Page 534 and 535:
Case StudiesChapter 9reduction legi
Page 536 and 537:
Case StudiesChapter 9countries. Thr
Page 538 and 539:
Case StudiesChapter 99.2.14. Educat
Page 540 and 541:
Case StudiesChapter 9to be removed
Page 542 and 543:
Case StudiesChapter 9can help to ad
Page 544 and 545:
Case StudiesChapter 9CRED, 2009: EM
Page 546 and 547:
Case StudiesChapter 9Hallegatte, S.
Page 548 and 549:
Case StudiesChapter 9Linnerooth-Bay
Page 550 and 551:
Case StudiesChapter 9O’Neill, M.S
Page 552 and 553:
Case StudiesChapter 9Skaff, M. and
Page 554 and 555:
Case StudiesChapter 9Visser, R. and
Page 557 and 558:
ANNEXI Authors and Expert Reviewers
Page 559 and 560:
Annex IAuthors and Expert Reviewers
Page 561 and 562:
Page 563 and 564:
Page 565 and 566:
Page 567 and 568:
ANNEXIIGlossary of TermsThis annex
Page 569 and 570:
Annex IIGlossary of Termswater vapo
Page 571 and 572:
Annex IIGlossary of Termsdrought, a
Page 573 and 574:
Annex IIGlossary of TermsImpactsEff
Page 575 and 576:
Annex IIGlossary of Termsforcing is
Page 577 and 578:
ANNEXIIIAcronyms565
Page 579 and 580:
Annex IIIAcronymsNAMNAONAPANaTechND
Page 581 and 582:
ANNEXIVList of Major IPCC Reports56
Page 583 and 584:
Annex IVList of Major IPCC ReportsC
Page 585 and 586:
Index573
Page 587 and 588:
Indexresilience building, 378touris
Page 589 and 590:
IndexEM-DAT database, 364Emissions
Page 591 and 592:
Indextransformation and, 324See als
Page 593 and 594:
IndexRisk sharing, 10-11, 397, 523i
show all

IPCC_Managing Risks of Extreme Events.pdf - Climate Access

You also want an ePaper? Increase the reach of your titles

Delete template?

Save as template?