The tree cover and temperature disparity in US urbanized areas: Quantifying the association with income across 5,723 communities.

Urban tree cover provides benefits to human health and well-being, but previous studies suggest that tree cover is often inequitably distributed. Here, we use National Agriculture Imagery Program digital ortho photographs to survey the tree cover inequality for Census blocks in US large urbanized areas, home to 167 million people across 5,723 municipalities and other Census-designated places. We compared tree cover to summer land surface temperature, as measured using Landsat imagery. In 92% of the urbanized areas surveyed, low-income blocks have less tree cover than high-income blocks. On average, low-income blocks have 15.2% less tree cover and are 1.5°C hotter than high-income blocks. The greatest difference between low- and high-income blocks was found in urbanized areas in the Northeast of the United States, where low-income blocks in some urbanized areas have 30% less tree cover and are 4.0°C hotter. Even after controlling for population density and built-up intensity, the positive association between income and tree cover is significant, as is the positive association between proportion non-Hispanic white and tree cover. We estimate, after controlling for population density, that low-income blocks have 62 million fewer trees than high-income blocks, equal to a compensatory value of $56 billion ($1,349/person). An investment in tree planting and natural regeneration of $17.6 billion would be needed to close the tree cover disparity, benefitting 42 million people in low-income blocks.

A Lupinoside prevented fatty acid induced inhibition of insulin sensitivity in 3T3 L1 adipocytes.

The decrease in insulin sensitivity to target tissues or insulin resistance leads to type 2 diabetes mellitus, an insidious disease threatening global health. Numerous evidences made free fatty acids (FFAs) responsible for insulin resistance and type 2 diabetes. We demonstrate here that the damage of insulin acitivity by a free fatty acid, palmitate could be prevented by a lupinoside. An incubation of 3T3 L1 adipocytes with a FFA i.e. palmitate inhibited insulin stimulated uptake of (3)H-2 deoxyglucose (2 DOG) significantly. Addition of a lupinoside purified from Pueraria tuberosa, lupinoside PA(4) (LPA(4)) strongly prevented this inhibition. We then examined insulin signaling pathway where palmitate significantly inhibited insulin stimulated phosphorylation of Insulin receptor tyrosine kinase, IRS 1and PI3 kinase, PDK1 and Akt/PKB. LPA(4) rescued this inhibition of signaling molecule by palmitate. Insulin mediated translocation of Glut4, the glucose transporter in insulin target cells, was effectively blocked by palmitate while, LPA(4) waived this block. Administration of LPA(4) to nutritionally induced diabetic rats significantly reduced the increase in plasma glucose. All these indicate LPA(4) to be a potentially therapeutic agent for insulin resistance and type 2 diabetes.