Soil arsenic surveys of New Orleans: localized hazards in children's play areas.

Arsenic (As) ranks first on the 2005 and 2007 hazardous substances priority lists compiled for the Comprehensive Environmental Response, Compensation, and Liability Act (CERCLA). This study describes two New Orleans soil As surveys: (1) a survey of composite soil samples from 286 census tracts and (2) a field survey of soil As at 38 play areas associated with the presence of chromated-copper-arsenate (CCA)-treated wood on residential and public properties. The survey of metropolitan New Orleans soils revealed a median As content of 1.

Sustainability, survivability, and the paradox of New Orleans.

Some precepts of the urban sustainability movement derive from the premise that economic expansion, population growth, and physical sprawl lead to a decline in quality of life, ecological damage, and eventual unsustainability. But what about cities that are failing-losing population, losing investment, losing infrastructure, even losing land? This article challenges conventional sustainability concepts, usually derived from the experiences of ascending cities, with the notion of survivability that confronts declining cities. Should troubled cities, such as New Orleans, located on the eroding Gulf of Mexico coastal region of the state of Louisiana, be held to different sustainability standards? Could urban expansion, in some cases, actually stem environmental degradation and enhance survivability?

Phytoestrogen signaling and symbiotic gene activation are disrupted by endocrine-disrupting chemicals.

Some organochlorine pesticides and other synthetic chemicals mimic hormones in representatives of each vertebrate class, including mammals, reptiles, amphibians, birds, and fish. These compounds are called endocrine-disrupting chemicals (EDCs). Similarly, hormonelike signaling has also been observed when vertebrates are exposed to plant chemicals called phytoestrogens.

Chemical communication threatened by endocrine-disrupting chemicals.

Communication on a cellular level--defined as chemical signaling, sensing, and response--is an essential and universal component of all living organisms and the framework that unites all ecosystems. Evolutionarily conserved signaling "webs," existing both within an organism and between organisms, rely on efficient and accurate interpretation of chemical signals by receptors. Therefore, endocrine-disrupting chemicals (EDCs), which have been shown to disrupt hormone signaling in laboratory animals and exposed wildlife, may have broader implications for disrupting signaling webs that have yet to be identified as possible targets.

Mechanical model of the nucleosome and chromatin.

A theoretical framework for evaluating the approximate energy and dynamic properties associated with the folding of DNA into nucleosomes and chromatin is presented. Experimentally determined elastic constants of linear DNA and a simple fold geometry are assumed in order to derive elastic constants for extended and condensed chromatin. The model predicts the Young s modulus of extended and condensed chromatin to within an order of magnitude of experimentally determined values.

Nitrogen fixation. Endocrine disrupters and flavonoid signalling.

Nitrogen fixation is a symbiotic process initiated by chemical signals from legumes that are recognized by soil bacteria. Here we show that some endocrine-disrupting chemicals (EDCs), so called because of their effect on hormone-signalling pathways in animal cells, also interfere with the symbiotic signalling that leads to nitrogen fixation. Our results raise the possibility that these phytochemically activated pathways may have features in common with hormonal signalling in vertebrates, thereby extending the biological and ecological impact of EDCs.

From malformations to molecular mechanisms in the male: three decades of research on endocrine disrupters.

For three decades, we have known that estrogens alter the development of the mammalian reproductive system in predictable ways. In mice exposed prenatally to diethylstilbestrol (DES) or other estrogens, the male offspring exhibit structural malformations including cryptorchidism, epididymal cysts and retained Mullerian ducts. The estrogen-associated alterations in the genital tract phenotype can be usefully considered as a model called Developmental Estrogenization Syndrome.