Ames PL (1966) DDT Residues in the eggs of the osprey in the North-Eastern United States and their relation to nesting success. Journal of Applied Ecology 3:87–97
Agency for Toxic Substances & Disease Registry (ATSDR) (2002) Public health statement for DDT, DDE, and DDD. Agency for Toxic Substances & Disease Registry, Atlanta, Georgia
Appleby, PG (2008) Three decades of dating recent sediments by fallout radionuclides: A review. Holocene 18:83–93.
Bailey P, Waite D, Quinnett-Abbott L, Ripley BD (2005) Residues of DDT and other selected organochlorine pesticides in soils from Saskatchewan, Canada (1999). Canadian Journal of Soil Science 85:265–271.
Bettinetti R, Quadroni S, Boggio E, Galassi S (2016) Recent DDT and PCB contamination in the sediment and biota of the Como Bay (Lake Como, Italy). Science of the Total Environment 542:404–410
Bojakowska I, Stasiuk M, Gasior J (2012) DDT and its metabolites in surface sediments of lakes and rivers of Poland. Biuletyn - Panstwowego Instytutu Geologicznego 9-16
Boul HL (1995) DDT residues in the environment - A review with a New Zealand perspective. New Zealand Journal of Agricultural Research 38:257–277
Boul HL, Garnham ML, Hucker D, Baird D, Aislable J (1994) Influence of agricultural practices on the levels of DDT and its residues in soil. Environmental Science and Technology 28:1397–1402
Byron CJ, Wilson KA (2001) Rusty crayfish (Orconectes rusticus) movement within and between habitats in Trout Lake, Vilas County, Wisconsin. Journal of the North American Benthological Society 20(4):606–614
Canadian Council of Ministers of the Environment (CCME) (2001) Canadian sediment quality guidelines for the protection of aquatic life. Canadian Council of Ministers of the Environment, Winnipeg, MB, Canada
Craddock CL (2009) Should I stay or should I go? The influence of habitat quality on movement patterns in Northern crayfish (Orconectes virilis). Dissertation, University of Arizona.
Crowe AS, Smith JE (2007) Distribution and persistence of DDT in soil at a sand dune-marsh environment: Point Pelee, Ontario, Canada. Canadian Journal of Soil Science 87:315–327
Dimond JB, Kadunce RE, Getchell AS, Blease JA (1968) Persistence of DDT in crayfish in a natural environment. Ecology 49:759–762
Dimond JB, Owen RB (1996) Long-term residue of DDT compounds in forest soils in Maine. Environmental Pollution 92:227–230
Food and Agriculture Organization (FAO) (2016) Submission and evaluation of pesticide residues data for the estimation of maximum residues in food and feed. 3rd edn. Food and Agriculture Organization of the United Nations, Rome, Italy
Gao J, Zhou H, Pan G, Wang J, Chen B (2013) Factors influencing the persistence of organochlorine pesticides in surface soil from the region around the Hongze Lake, China. Science of the Total Environment 443:7–13
Glass EH, B Fiori (1955) Codling moth resistance to DDT in New York. Journal of Economic Entomology 48:598–599
Gutenmann WH, Ebel JG, Kuntz HT, Yourstone KS, Lisk DJ (1992) Residues of p,p’-DDE and mercury in lake trout as a function of age. Archives of Environmental Contamination and Toxicology 22:452–455
Harwood, A. D., G. E. Sutherland, M. M. Woller-Skar, M. J. Lydy, and M. C. Borrello (2019) Evaluating toxicity risk in sediments after remediation at a Superfund megasite using a Triad approach. Environmental Monitoring and Assessment 191, 665.
Hitch RK, Day HR (1992) Unusual persistence of DDT in some Western USA soils. Bulletin of Environmental Contamination and Toxicology 48:259–264
Hu W, Wang T, Khim JS, Luo W, Jiao W, Lu Y, Naile JE, Chen C, Zhang X, Giesy JP (2010) HCH and DDT in sediments from marine and adjacent riverine areas of North Bohai Sea, China. Archives of Environmental Contamination and Toxicology 59:71–79
Johnson A, Norton D, Yake B (1988) Persistence of DDT in the Yakima River drainage, Washington. Archives of Environmental Contamination and Toxicology 17:289–297
Kang L, He Q, He W, Kong X, Liu W, Wu W, Li Y, Lan X, Xu F (2016) Current status and historical variations of DDT-related contaminants in the sediments of Lake Chaohu in China and their influencing factors. Environmental Pollution 219:883–896
Kaste JM, Heimsath AM, Bostick BC (2007) Short-term soil mixing quantified with fallout radionuclides. Geology 35:243–246
Khuman SN, Bharat G, Chakraborty P (2019) Spatial distribution and sources of pesticidal persistent organic pollutants in the Hooghly riverine sediment. Environmental Science and Pollution Research 27(4):4137-4147
Kivenson, V, Lemkau KL, Pizarro O, Yoerger DR, Kaiser C, Nelson RK, Carmichael C, Paul BG, Reddy CM, Valentine DL (2019) Ocean dumping of containerized DDT waste was a sloppy process. Environmental Science and Technology 53:2971–2980.
Kurek J, MacKeigan PW, Veinot S, Mercer A, Kidd KA (2019) Ecological legacy of DDT archived in lake sediments from eastern Canada. Environmental Science & Technology 53:7316–7325
Kurt Karakus PB, Bidleman TF, Staebler RM, Jones KC (2006) Measurement of DDT fluxes from a historically treated agricultural soil in Canada. Environmental Science & Technology 40(15):4578-4585
Last WM, Smol JP (2001) An introduction to basin analysis, coring, and chronological techniques used in paleolimnology. In: Last WM, Smol JP (eds) Tracking environmental change using lake sediments: Basin analysis, coring, and chronological techniques. Springer Netherlands, Dordrecht, pp 1–5
Lichtenstein EP, Fuhremann TW, Schulz KR (1971) Persistence and vertical distribution of DDT, lindane, and aldrin residues, 10 and 15 years after a single soil application. Journal of Agricultural and Food Chemistry 19:718–721
Loon Preservation Committee (2013) Investigation of contaminants in crayfish from the Squam Lakes, New Hampshire watershed. Unpublished data.
Ma J, Pan L, Yang X, Liu X, Tao S, Zhao L, Qin X, Sun Z, Hou H, Zhou Y (2016) DDT, DDD, and DDE in soil of Xiangfen County, China: Residues, sources, spatial distribution, and health risks. Chemosphere 163:578–583
May A (2020) DDT Contamination in Squam Lake, NH: A Watershed Approach. Master’s thesis, Plymouth State University
Miles JRW, Harris CR (1973) Pesticides in water: organochlorine insecticide residues in streams draining agricultural, urban-agricultural, and resort areas of Ontario, Canada - 1971. Pesticides Monitoring Journal 6:363–368
Muir DCG, Grift NP, Lockhart WL, Wilkinson P, Billeck BN, Brunskill GJ (1995) Spatial trends and historical profiles of organochlorine pesticides in Arctic lake sediments. Science of the Total Environment 160-161:447–457
Munn MD, Gruber SJ (1997) The relationship between land use and organochlorine compounds in streambed sediment and fish in the central Columbia plateau, Washington and Idaho, USA. Environmental Toxicology 16:1877–1887
Nash RG, Woolson EA (1967) Persistence of Chlorinated Hydrocarbon Insecticides in Soils. Science 157:924–927
Nearing MA (2001) Potential changes in rainfall erosivity in the U.S. with climate change during the 21st century. Journal of Soil and Water Conservation 56:229–232
Nygård T (1983) Nordic society oikos pesticide residues and shell thinning in eggs of peregrines in Norway. Ornis Scandinavia 14:161–166
Oliver BG, Charlton MN, Durham RW (1989) Distribution, redistribution, and geochronology of polychlorinated biphenyl congeners and other chlorinated hydrocarbons in Lake Ontario sediments. Environmental Science & Technology 23:200–208
Olsson M, Bignert A, Eckhéll J, Jonsson P (2000) Comparison of temporal trends (1940s–1990s) of DDT and PCB in Baltic sediment and biota in relation to eutrophication. Royal Swedish Academy of Sciences 29:195–201
Pereira WE, Hostettler FD, Rapp JB (1996) Distributions and fate of chlorinated pesticides, biomarkers and polycyclic aromatic hydrocarbons in sediments along a contamination gradient from a point-source in San Francisco Bay, California. Marine Environmental Research 41:299–314
Pham T, Lure K, Lemieux C (1993) The occurrence, distribution and sources of DDT in the St. Lawrence River, Quebec (Canada). Chemosphere 26:1595–1606
Qu C, Albanese S, Lima A, Hope D, Pond P, Fortelli A, Romano N, Cerino P, Pizzolante A, De Vivo (2019) The occurrence of OCPs, PCBs, and PAHs in the soil, air, and bulk deposition of the Naples metropolitan area, southern Italy: Implications for sources and environmental processes. Environment International 124:89-97
Quensen JFI, Mueller SA, Jain MK, Tiedje JM (1998) Reductive dechlorination of DDE to DDMU in marine sediment microorganisms. Science 280:722–724
Sánchez-Osorio JL, Macías-Zamora JV, Ramírez-Álvarez N, Bidleman TF (2017) Organochlorine pesticides in residential soils and sediments within two main agricultural areas of northwest Mexico: Concentrations, enantiomer compositions and potential sources. Chemosphere 173:275–287
Santschi PH, Presley BJ, Wade TL, Garcria-Romero B, Baskaran M (2001) Historical contamination of PAHs, PCBs, DDTs, and heavy metals in Mississippi River Delta, Galveston Bay and Tampa Bay sediment cores. Marine Environmental Research 52:51–79
Schilderman PAEL, Moonen EJC, Mass LM, Welle I, Kleinjans JCS (1977) Use of crayfish in biomonitoring studies of environmental pollution of the river Meuse. Ecotoxicology and Environmental Safety 44:241–252
Sudharshan S, Naidu R, Mallavarapu M, Bolan N (2012) DDT remediation in contaminated soils: a review of recent studies. Biodegradation 23(6):851-63.
Tang XY, Zhang XB, Guan Z, Long Y, Tang Q, Lü YJ (2014) Historical sediment record of137Cs, δ-HCH, and δ13C reflects the impact of land use on soil erosion. Journal of Mountain Science 11:866–874
Tsygankov VY, Boyarova MD (2015) Sample preparation method for the determination of organochlorine pesticides in aquatic organisms by gas chromatography. Achievements in the Life Sciences 9:65–68
United States Department of Agriculture (USDA) (2019). Natural Resources Conservation Service. Available at https://www.nrcs.usda.gov/wps/portal/nrcs/main/soils/survey/. Accessed September 16, 2019
United States Department of the Interior (USDOI) (1998) Guidelines for interpretation of the biological effects of selected constituents in biota, water, and sediment. United States Environmental Protection, Washington, D.C.
United States Environmental Protection Agency (USEPA) (1975) DDT: A review of scientific and economic aspects of the decision to ban its use as a pesticide. United States Environmental Protection, Washington, D.C.
United States Environmental Protection Agency (USEPA) (2001) Methods for collection, storage and manipulation of sediments for chemical and toxicological analyses:
Technical manual. United States Environmental Protection, Washington, D.C.
United States Environmental Protection Agency (USEPA) (2017) DDT - A brief history and status. United States Environmental Protection Agency, Washington, D.C.
United States Geological Survey (USGS) (2017) StreamStats, version 4. Available at https://streamstats.usgs.gov. Accessed September 18, 2019
Vogel H (2010) The Squam Lake loon initiative: Progress report September 2010. Available at https://www.nuttallclub.org/wp-content/uploads/2017/01/Squam-Lake-Loon-Initiative.pdf. Accessed March 6 2021
Vogel H (2017) Contaminated sediments in Squam Lake tributaries, 2015-2016. Available at https://loon.org/wp-content/uploads/2020/01/LPC-Sediment-report-for-DES-redacted-version.pdf. Accessed August 17, 2021
Wang J, Schlenk D, Gan J. (2019) A direct method for quantifying the effects of aging on the bioavailability of legacy contaminants in soil and sediment. Environmental Science & Technology Letters 6(3):148-52.
Wedemeyer G (1966) Dechlorination of DDT by Aerobacter aerogenes. Science 152:647
Wohl E (2015) Legacy effects on sediments in river corridors. Earth-Science Reviews 147:30–53
Yang D, Qi S, Zhang J, Wu C, Xing X (2013) Organochlorine pesticides in soil, water and sediment along the Jinjiang River mainstream to Quanzhou Bay, southeast China. Ecotoxicology and Environmental Safety 89:59–65
Zhang F, Wang J, Baskaran M, Zhong Q, Wang Y, Paatero J, Du J (2021) A global dataset of atmospheric 7Be and 210Pb measurements: annual air concentration and depositional flux. Earth System Science Data 13:2963–2994.
Zhang H, Shan B (2014) Historical distribution of DDT residues in pond sediments in an intensive agricultural watershed in the Yangtze-Huaihe region, China. Journal of Soils and Sediments 14:980–990