YELLOW RAIN-ANALYSIS EVALUATION OF LEAF SAMPLE-(PUBDATE UNKNOWN)

Approved for Release: 2015/01/05 000037509 Cora, [La� ,' 5 4_ Analytical Division Research Directorate Analysis/Evaluation of Leaf Sample A shipment -designated 10027A(5), received by tae Analytical Division 3 Mar 84 from FSTC, contained 19 subpackages. Eight of these samples have been previously reported...? One container identified with TH840223-5DL was designated 10027A(5)-4. It consisted of a few yellow spotted leaves containerized in a plastic bag. Information indicated it was collected from an area after a reported chemical attack. A vapor sample wathdrawn from within the plastic bag was subjected to analysis by gas chromatography/mass spectrometry (CC/MS). Three portions of the leaves were extracted with chloroform. Three other portions of the leaves were extracted with 1:1 methanol:water. The solvent soluble caterials were analyzed by GC/MS, ion chromatograph, (IC), thin layer chromatography (TLC) and infrared spectrometry (IR). GC/MS analysis of the vapors associated with the leaves did not give a definitive apeatra. The GC/MS spectra of one solvent extract Identified the presence of a terpene, the aesquiterpene alcohol nerolidol and two unidentified compounds. The other solvent extracts did not yield definitive GC/MS spectra. No ions of interest were separated or identified by IC. TLC separated components supportive of aromatic or unsaturated compounds and trichothecenes. MS of these areas identified only phthalates. IR of the same areas identified aliphatic hydrocarbons and a carbonyl. IR of the solvent extracts identified high concentrations of aliphatic hydrocarbons, a possible unsaturate and traces of carbonyl. Derivatization with negative ion chemical ionization detection for trichothecenes tentatively identified the presence of neosolaniol at picogram levels in one solvent extract. The other Extracts were negative for trichothecenes. The detection of picogram levels of trichothecenes could not be confirmed by other laboratories, due to their aimanum detection level being higher than CRDEC's. Nuclear Magnetic Resonance (NM) of the same extraCt was negative for HD, C and V agents and the epoxide structure normally detected in trichothecenes. It did detect a maxture of alkyl hydrocarbon with methoxy (OCH2) groups. Information received from SEA indicated T-2 toxin bad been identified by a near-field laboratory as a component in another sample taken at the same time and place. CONCLUSION: No evidence of any known CW agent or agent degradation product was detected. The detection of the trichothecene neosolaniol was of interest, however, the inability of other laboratories to confirm the CRDEC findings, ard CRDEC's not confirming the T-2 reportedly detected by SEA laboratories cn other portion of the sample clouds the eagnificance of the findings. The other chemical substructures identified could be components of a toxin or related compound, but also could be associated with an innocuous material. Classified by: CIA Declassify: OADR Approved for Release: 2015/01/05 000037509 Ego