If your compiler doesn't support C99 or later, you will either need to find a different compiler that does support it, or rewrite your code so that all declarations come before any statements within the block.
A 6-digit designation identifying each NFIP community. The first 2 numbers are the state code. The next 4 are the FEMA-assigned community number. An alphabetical suffix is added to a community number to identify revisions in the Flood Insurance Rate Map (FIRM) for that community.
Mixed In Key Serial Code 44
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Without a proper foundation, an elevated building can suffer damage from a flood due to erosion, scour, or settling. The National Flood Insurance Program (NFIP) regulations provide performance standards for anchoring new buildings and foundation and fill placement standards for buildings, for manufactured homes, and in V Zones. However, the NFIP performance standards do not specify how a building's foundations are to be constructed in A Zones. The national model building codes address building foundations and the proper placement, compaction, and protection of fill.
A residential building that is designed for use as a residential space for 5 or more families or a mixed-use building in which the total floor area devoted to non-residential uses is less than 25% of the total floor area within the building.
The first two hazard codes shown above apply to listed wastes whose constituents pose additional threat to human health and the environment. The last four hazard codes apply to wastes that have been listed because they typically exhibit one of the four regulatory characteristics of hazardous waste.
Wastes that are hazardous due to the ignitability characteristic include liquids with flash points below 60 C, non-liquids that cause fire through specific conditions, ignitable compressed gases and oxidizers. EPA assigned D001 as the waste code for ignitable hazardous wastes.
Wastes that are hazardous due to the corrosivity characteristic include aqueous wastes with a pH of less than or equal to 2, a pH greater than or equal to 12.5 or based on the liquids ability to corrode steel. EPA assigned D002 as the waste code for corrosive hazardous wastes.
Wastes that are hazardous due to the reactivity characteristic may be unstable under normal conditions, may react with water, may give off toxic gases and may be capable of detonation or explosion under normal conditions or when heated. EPA assigned D003 as the waste code for reactive hazardous wastes.
Wastes that are hazardous due to the toxicity characteristic are harmful when ingested or absorbed. Toxic wastes present a concern as they may be able to leach from waste and pollute groundwater. The toxicity of a waste is determined by the Toxicity Characteristic Leaching Procedure (TCLP) (SW-846 Test Method 1311). EPA assigned wastes codes D004 through D043 that correspond to a contaminant and its associated TCLP concentration.
Mixed wastes are hazardous wastes which also contain radioactive material. Mixed waste is regulated under the RCRA and the Atomic Energy Act. The hazardous component of the mixed waste is regulated by EPA under RCRA. The radiological component of the mixed waste is regulated by the Department of Energy (DOE) or the Nuclear Regulatory Commission (NRC). The NRC typically regulates waste from commercial and non-DOE facilities while the DOE regulates waste from DOE facilities.
Several observational, longitudinal studies report neighborhood resources in general, and access and availability of the food environment in particular, as associated with diabetes prevalence and incidence (187). A systematic review by den Braver et al. (188) found availability of fast-food outlets and convenience stores to be associated with higher T2DM risk/prevalence and perceived healthfulness of the food environment to be associated with lower diabetes risk/prevalence, but no association was found between density of grocery stores and T2DM risk/prevalence. Heterogeneity across the studies prevented the conduct of meta-analyses. Gabreab et al. (189) examined neighborhood, social, and physical environments and T2DM in 3,700 African Americans through the Jackson Heart Study and found higher density of unfavorable food stores was associated with a 34% higher T2DM incidence after adjusting for individual-level risk factors. In a longitudinal employee cohort, Herrick et al. (190) found that living in a zip code with higher supermarket density was associated with a reduction in T2DM risk, while zip codes with a higher percentage of poverty and zip codes with higher walkability scores were both associated with higher diabetes risk. Christine et al. (191) reported long-term exposure to residential environments that offer resources to support healthy diets and PA was associated with a lower incidence of T2DM, although results varied by measurement method.
This transnational serial property comprises eleven spa towns, located in seven European countries: Baden bei Wien (Austria); Spa (Belgium); Františkovy Lázně; Karlovy Vary; Mariánské Lázně (Czechia); Vichy (France); Bad Ems; Baden-Baden; Bad Kissingen (Germany); Montecatini Terme (Italy); and City of Bath (United Kingdom). All of these towns developed around natural mineral water springs. They bear witness to the international European spa culture that developed from the early 18th century to the 1930s, leading to the emergence of grand international resorts that impacted urban typology around ensembles of spa buildings such as baths, kurhaus and kursaal (buildings and rooms dedicated to therapy), pump rooms, drinking halls, colonnades and galleries designed to harness the natural mineral water resources and to allow their practical use for bathing and drinking. Related facilities include gardens, assembly rooms, casinos, theatres, hotels and villas, as well as spa-specific support infrastructure. These ensembles are all integrated into an overall urban context that includes a carefully managed recreational and therapeutic environment in a picturesque landscape. Together, these sites embody the significant interchange of human values and developments in medicine, science and balneology.
Encompassing 42,698 hectares of subtropical rainforests on four islands on a chain located in the southwest of Japan, the serial site forms an arc on the boundary of the East China Sea and Philippine Sea whose highest point, Mount Yuwandake on Amami-Oshima Island, rises 694 metres above sea level. Entirely uninhabited by humans, the site has high biodiversity value with a very high percentage of endemic species, many of them globally threatened. The site is home to endemic plants, mammals, birds, reptiles, amphibians, inland water fish and decapod crustaceans, including, for example, the endangered Amami Rabbit (Pentalagus furnessi) and the endangered Ryukyu Long-haired Rat (Diplothrix legata) that represent ancient lineages and have no living relatives anywhere in the world. Five mammal species, three bird species, and three amphibian species in the property have been identified globally as Evolutionarily Distinct and Globally Endangered (EDGE) species. There are also a number of different endemic species confined to each respective island that are not found elsewhere in the property.
The site is located along the Thailand side of the Tenasserim mountain range, part of a north-south granite and limestone mountain ridge running down the Malay Peninsula. Located at the cross-roads between the Himalayan, Indochina, and Sumatran faunal and floral realms, the property is home to rich biodiversity. It is dominated by semi-evergreen/dry evergreen and moist evergreen forest with some mixed deciduous forest, montane forest, and deciduous dipterocarp forest. A number of endemic and globally endangered plant and wildlife species have been reported in the property, which overlaps with two Important Bird Areas (IBAs) and is noted for its rich diversity of birdlife, including eight globally endangered fauna species. The property is home to the critically endangered Siamese Crocodile (Crocodylus siamensis), the endangered Asiatic Wild Dog (Cuon alpinus), Banteng (Bos javanicus), Asian Elephant (Elephas maximus), Yellow/Elongated Tortoise (Indotestudo elongata), and the endangered Asian Giant Tortoise (Manouria emys), as well as several other vulnerable species of birds and mammals. Remarkably, it is also home to eight cat species: the endangered tiger (Panthera tigris) and Fishing Cat (Prionailurus viverrinus), the near-threatened Leopard (Panthera pardus) and Asian Golden Cat (Catopuma temminckii), the vulnerable Clouded Leopard (Neofelis nebulosi) and Marbled Cat (Pardofelis marmorata), and the least concerned Jungle Cat (Felis chaus) and Leopard Cat (Prionailurus bengalensis).
The property consists of 17 archaeological sites in the southern part of Hokkaido Island and northern Tohoku in geographical settings ranging from mountains and hills to plains and lowlands, from inland bays to lakes, and rivers. They bear a unique testimony to the development over some 10,000 years of the pre-agricultural yet sedentary Jomon culture and its complex spiritual belief system and rituals. It attests to the emergence, development, maturity and adaptability to environmental changes of a sedentary hunter-fisher-gatherer society which developed from about 13,000 BCE. Expressions of Jomon spirituality were given tangible form in objects such as lacquered pots, clay tablets with the impression of feet, the famous goggle eyed dogu figurines, as well as in ritual places including earthworks and large stone circles reaching diameters of more than 50 metres. The serial property testifies to the rare and very early development of pre-agricultural sedentism from emergence to maturity.
The site contains 4,500 petroglyphs carved in the rocks during the Neolithic period dated about 6-7 thousand years ago and located in the Republic of Karelia in the Russian Federation. It is one of the largest such sites in Europe with petroglyphs that document Neolithic culture in Fennoscandia. The serial property encompasses 33 rock art panels in two component parts 300km apart: 22 petroglyph groups at Lake Onega in the District of Pudozhsky featuring a total of over 1,200 figures and 3,411 figures in 11 groups by the White Sea in the District of Belomorsky. The rock art figures at Lake Onega mostly represents birds, animals, half human and half animal figures as well as geometric shapes that may be symbols of the moon and the sun. The petroglyphs of the White Sea are mostly composed of carvings depicting hunting and sailing scenes including their related equipment as well as animal and human footprints. They show significant artistic qualities and testify to the creativity of the Stone Age. The petroglyphs are associated with sites including settlements and burial grounds. 2ff7e9595c
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