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Certificate of Mold Analysis 1
PRO—LABa COLORADO ENVIRONMENTAL PO BOX 5110 EAGLE, CO 81631 1675 North Commerce Parkway, Weston, FL 33326 (954) 384-4446 Certificate of Mold Analysis Prepared for: Phone Number: Fax Number: Project Name: Test Location: Chain of Custody #: Received Date: Report Date: Pr' .6' c1" ( lv-'/y- Erika Piechowski, Technical Manager COLORADO ENVIRONMENTAL (928) 202-9742 7800 HWY 82 # 106 GLENWOOD SPRINGS, CO 828124 March 4, 2015 March 5, 2015 Carlos Ochoa, Quality Control Manager Currently there are no Federa regulations for evaluating potential health effects of fungal contamination and remediation This information is subject to change as more information regarding funga' contaminants becomes available For more information visit http:llwww epa gov/mold or www nyc govlhtmlldohlhtmilepilmdd shtml This document was designed to follow currently known industry guidelines for the interpretation of microbial sampling, analysis, and remediation, Since interpretation of mold analysis reports is a scientific work in progress, it may as such be changed at any time without notice The client is solely responsible for the use or interpretation PRO-LAB/SSM Inc makes no express or implied warranties as to health of a property from only the samples sent to their laboratory for analysis The Client is hereby notified that due to the subjective nature of funga analysis and the mold growth process, laboratory samples can and do change over time relative to the originally sampled material PRO•LABISSPTM Inc, reserves the right to properly dispose of all samples after the testing of such samples are sufficiently completed or after a 7 da period whichever is greater • AIHA LAP, LLC A0 REOM LABINTORY Br'i'�kttEir7li� 1t7�AG r 190f�1iQl�05 I LABIH3230 For more information please contact PRO -LAB at (954) 384-4446 or email info@prolabinc.com Page I of 4 PRO -LAB®-` __ 1675 North Commerce Parkway, Weston, FL 33326 {954) 384-4446 Prepared for: COLORADO ENVIRONMENTAL Test Address : 7800 HWY 82 # 106 GLENWOOD SPRINGS. CO ANALYSIS METHOD Spare trap analysis Spare "p analysis INTENTIONALLY BLANK INTENTIONALLY BLANK LOCATION POST REMEDIATION OUTSIDE COC f LINE 0 828124-1 x28124-2 SAMPLE TYPE d VOLUME AIR -O -CELL - 75L AIR -O -CELL - 75L SERIAL NUMBER 20961710 20961047 COLLECTION DATE Mar 1, 2015 Mar 1 2015 ANALYSIS DATE Mar 5, 2015 Mar 5 2015 CONCLUSION NOT ELEVATED CONTROL IDENTIFICATION Raw Spore? Percent Count per m of Total Raw Coun pore percent r rn_ of Total Raw Spore ls Percent Raw Spores Percent Dunt r m _0700. _ Count er m of Total Alternaria 4 53 33 Other Basidtos pores 4 53 100 8 110 67 TOTAL SPORES 4 1 53 1 100 1 12 163 100 MINIMUM DETECTION LIMIT 1 53 1 53 BACKGROUND DEBRIS L Ljjh-L L' t Cellulose Fiber 1 4 _._ 53 _ 20__ _ _270 _ __ OBSERVATIONS L COMMENTS Background debris quali'atively, estimates the amount of particles Ilial. are not paten or spores and directly affects the accuracy of the spore counts. The categories of Light, Moderate, Heavy and Too Heavy, for Accurate Count, are used to indicate the amount of deposited debris. Increasing amounts of debris will obscure small spares and can prevent spores from impacting onto the slide ' Ire actual number of spores present In the sampte is likely higher than -reported it the debris estimate is'Heavy or 'Tac Heavy for Accurate Count All calculations are rounded to two signirirant figures and therefore. the total percentago of spore numbers may not equal 10D%. • Minimum Detection Limit Based on the volume of air sampled nils is Ilk, lowest number of spores that can be detected and is an estimate of the lowest concentration of spores" can be read in the sample. NA = Not Applicable Spores that were observed from the samples submitted are listed on this report. C a spare Is not listed an this report It was not observed In the samples submitted. Interpretation Guidelines- A determination -s added to the report to help i-sers mnirrprel the mold analysis results A mold repon is only one aspect of an Indoor air quat ty Investigation The most importanl aspect 0 mole growth in a trang space is the availabil ly of water Without a source of water mold generatly will not become a problem In buildings These determinations are in no way meant to imply any health outcomes or financial decisions based solely on this report. For questions relating to medical conditions y�.0 should consult an occupational or environmental health physician or professional CONTROL is a baseline sample showing what the spore count and diversity is at Iha time of sampling The control sample(si is usuatly collected outside of the structure being tested and used to determine if urs sample(s) is similar in diversity and abundance to the inside samples) ELEVATED means that the amount and/or diversity of spores as compared to tha control sample(s). and other samples in cur database are higher than expected This can Indicate that fungi have grown because a' a water leak or water intrusion- Fungi that are considered to be Indicators of water damago ,nctude. but are not limited to Chaotomrum Fusarium, Memnonieda. Srachyborrys. Scnpufadopsis. Uibcradrom NOT ELEVATED means that the amount andlorthe dmversdr of spares as compared to the control sample and other samples in our database. are tower tlwn expected arta may° indicate no problematic fungal growth UNUSUAL means that the presence of current or former growth was observed in Ihu analyzed sample An abundance of spores are present. andfor growth structures including hyphae andfor fruiting bodies are present and associated with one or more of the types of moldffungi Identified in the anal rzed sample NORMAL means Ihat no presence of current or former growth was observed in" analyzed sample If spores are recorded they are normally what is in the air and have settled on the surf-ice(s) tested Page2 of 4 PRO -LAB® Other Basidiospores Altemaria 1675 North Commerce Parkway, Weston, FL 33326 Chain of Custody # 828124 Post Remediation Outside 10 53 Spores per cubic meter 100 1® (954) 384-4446 Page 3 of 4 � R & )_� a 5 q§t§ �f£$ f; EM E0$ I - $ § '■«$ I_ M ® a M E 2 Em § a©�-� § Em{= kEv U a@§ek 2Acc - �§ e 2 �§ ( / #0 L _C.L_ cp§ E {. §$/� 2 k w CL ) k CL §Xk ke§§ ems. � E ec e - §k k�kk 0M CL IL oako m££ cn ��■§ / f2k�� �§Z, b 20 0L m -o s-�2$ 0a)Ew c§. 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