The Transatlantic Trade and Investment Partnership: Challenges and Opportunities for Consumer Protection. Paper No. 11 in the CEPS-CTR project ‘TTIP in the Balance’ and CEPS Special Report No. 115/July 2015

This paper examines options for regulatory cooperation in the Transatlantic Trade and Investment Partnership (TTIP) and assesses the challenges and opportunities posed by regulatory cooperation for consumer protection. It looks at existing approaches to regulatory cooperation by referencing a range of case studies. Based on established practice and on the European Commission’s recently published proposal on regulatory cooperation, we discuss a possible approach that could be adopted in the TTIP. Against the significant potential gains from improved regulatory cooperation, one must set the significant challenges of reconciling the different regulatory philosophies of the US and the EU as well as some differences in their respective approaches to cooperation. In broad terms, this analysis finds that regulatory powers on both sides of the Atlantic will not be significantly affected by the TTIP, but suggests that European and American legislators will need to ensure that their priorities shape the TTIP regulatory cooperation agenda and not the other way around.

Petrography, chemistry and magnetic properties of ODP Leg 115 basalts

A detailed study of the Fe-Ti oxides in four basalt samples-one from each of the four holes drilled into basement on Ocean Drilling Program Leg 115 (Sites 706, 707, 713, and 715) has been performed. Ilmenite is present only in samples from Sites 706 and 715. In the sample from Site 715, Ti-magnetite intergrowths are characteristic of subaerial (?) high-temperature oxy-exsolution; Ti-magnetite in the other three samples has experienced pervasive low-temperature oxidation to Ti-maghemite, as evidenced by the double-humped, irreversible, saturation magnetization vs. temperature (Js/T) curves. The bulk susceptibility of these samples, which are similar in terms of major element chemistry, varies by a factor of ~20 and correlates semiquantitatively with the modal abundance of Fe-Ti spinel, as determined by image analysis with an electron microprobe. The variation in Fe-Ti oxide abundance correlates with average grain size: fine-grained samples contain less Fe-Ti oxide. This prompts the speculation that the crystallization rate may also influence Fe-Ti oxide abundance.