The jalapeño (/
Immature jalapeños still on the plant
|Scoville scale||3,500 to 8,000 SHU|
History and etymologyEdit
The jalapeño is variously named huachinango, for the ripe red jalapeño, and chile gordo (meaning "fat chili pepper") also known as cuaresmeño.
The name jalapeño is Spanish for "from Xalapa" (also spelled Jalapa), the capital city of Veracruz, Mexico, where the pepper was traditionally cultivated. The name Xalapa is itself of Nahuatl origin, formed from roots xālli [ˈʃaːlːi] "sand" and āpan [ˈaːpan] "water place".
Genetic analysis of Capsicum annuum places jalapeños as a distinct genetic clade with no close sisters that are not directly derived from jalapeños. Jalapeños were in use by the Aztecs prior to the Spanish conquest; Bernardino de Sahagún in the Florentine Codex writes of Aztec markets selling chipotles (smoked jalapeños), mole made from chipotles, besides the sale of fresh chilies. The use of peppers in the Americas dates back thousands of years, including the practice of smoking some varieties of peppers in order to preserve them; further well preserved samples and genetic testing would be needed to determine the usage and existence of the jalapeño clade and pod type into the past.
Cultivation of jalapeñosEdit
In 1999, roughly 107,000 acres in Mexico were dedicated towards growing jalapeños and as of 2011, that number had fallen to 101,000 acres. Jalapeños account for thirty percent of Mexico's chili production, and while acreage has decreased, there has been a 1.5% increase in volume yield per year in Mexico due to increasing irrigation, use of greenhouses, better equipment, knowledge, and improved techniques so that in 2009, 619,000 tons of jalapeños were produced with 42% of the crop coming from Chihuahua, 12.9% from Sinaloa, 6.6% from Jalisco, and 6.3% from Michoacán. La Costeña controls about 60% of the world market and, according to company published figures, exports 16% of the peppers that Mexico produces, an 80% share of the 20% that Mexico exports in total. The US imports 98% of La Costeña's exports.
According to the USDA, starting since 2010, California produces the most jalapeños followed by New Mexico and Texas, for a total of 462.5 million pounds of peppers (231,250 tons) in 2014. It is difficult to get accurate statistics on chilies and specific chilies as growers are not fond of keeping and sharing such data and reporting agencies often lump all green chilies together, or all hot chilies, with no separation of pod type. In New Mexico in 2002 the crop of jalapeños were worth $3 million at the farm gate and $20 million with processing.
Jalapeños are a pod type of Capsicum annuum. The growing period is 70–80 days. When mature, the plant stands 70–90 cm (28–35 in) tall. Typically, a plant produces 25 to 35 pods. During a growing period, a plant will be picked multiple times. As the growing season ends, the peppers turn red, as seen in Sriracha sauce. Jalapeños thrive in a number of soil types and temperatures, though they prefer warmer climates, provided they have adequate water. The optimum temperature for seed germination is 29 °C (84 °F), with degradation of germination seen above 30 °C (86 °F) and little to no germination occurring at 40 °C (104 °F); at 29 °C (84 °F) the time to 50% germination rate depends on cultivar and seed lot but was tested as being between 4 and 5 days, which is shorter than Cayenne. A pH of 4.5 to 7.0 is preferred for growing jalapeños and keeping the soil well drained is essential for keeping the plants healthy. Jalapeños need at least 6 to 8 hours of sunlight per day. Experimental results show that unlike bell peppers at least 7.5 millimolar (mM) Nitrogen is needed for optimal pod production and 15 to 22 mM Nitrogen produces the best result, the plant produces both more leaves and more pods, rather than just more leaves. Once picked, individual peppers may turn to red of their own accord. The peppers can be eaten green or red. Though usually grown as an annual they are perennial and if protected from frost can produce during multiple years, as with all Capsicum annuum.
Jalapeños are subject to root rot and foliar blight, both often caused by Phytophthora capsici; over-watering worsens the condition as the fungus grows best in warm wet environments. However, the cause is not itself over-watering but the fungus. Crop rotation can help, and resistant strains of jalapeño, such as the NuMex Vaquero and TAM Mild Jalapeño, have been and are being bred as this is of major commercial impact throughout the world. As jalapeños are a cultivar, the diseases are common to Capsicum annuum: Verticillium wilt, Cercospora capsici, Powdery mildew, Colletotrichum capsici (Ripe Rot), Erwinia carotovora (Soft Rot), Beet curly top virus, Tospovirus (Tomato spotted wilt virus), Pepper mottle virus, Tobacco mosaic virus, Pepper Geminiviridae, and Root-knot nematode being among the major commercially important diseases.
After harvest if jalapeños are stored at 7.5 °C (45.5 °F) they have a shelf life of up to 3–5 weeks. Jalapeños produce 0.1-0.2 µl/kg⋅h of ethylene which is very low for chiles and do not respond to ethylene treatment. Holding jalapeños at 20-25 °C and high humidity can be used to complete the ripening of picked jalapeños. A hot water dip of 55 °C (131 °F) for 4 minutes is used to kill off molds that may exist on the picked peppers without damaging them. The majority of jalapeños are wet processed, canned or pickled, on harvesting for use in mixes, prepared food products, and salsas.
Hybrids and sub-cultivarsEdit
There are a wide variety of breeds for consumer and commercial use of jalapeño plants. The majority fall under one of four categories: F1 hybrids, where the parent plants have been hand-emasculated and cross-bred to produce uniform offspring with hybrid vigor; cultivars which are F-11 or F-12 hybrids or later generations where a stable unique population has been developed; landraces; and F2 hybrids.
F1 hybrids produce the highest and most uniform yields but cost 25 times the cost of open-pollinated seed, leading to only 2% of United States acreage being planted with F1 hybrids. F2 hybrids often produce similarly to F1 hybrids; however, some F1 hybrids are produced via recessive male sterility to eliminate the need to hand-pollinate, reducing the cost to produce the hybrid, but producing a 25% reduction in yield in the F2 generation. Some notable F1 hybrids are 'Mitla', 'Perfecto', 'Tula', 'Grande' (a hot jalapeño), 'Sayula', 'Senorita', and 'Torreon', most of them being developed and marketed by Petoseed, a brand of Seminis.
Cultivars are researched and created to promote desirable traits. Common traits selected for are resistance to viruses and other pepper-related diseases, milder peppers, early ripening, more attractive fruit in terms of size, wall thickness, and corking, and higher yields. The land-grant universities and the Chile Pepper Institute promote the use of cultivars as the most sustainable and environmentally safe disease control method both in terms of economics and long-term environmental perspective. Notable cultivars include 'Early Jalapeño', 'TAM Mild Jalapeño', 'TAM Mild Jalapeño II', 'TAM Veracruz', the yellow 'TAM Jaloro', 'NuMex Vaquero', the colorful 'NuMex Piñata', 'TAM Dulcito', 'Waialua', and 'NuMex Primavera'.
Sweet hybridized varieties have been created with no "heat" although they retain the look and flavor of a jalapeño. These varieties can be used for making mild salsas and dishes served to anyone who doesn't tolerate spicy food. A popular example in 2000s and early 2010s was 'Fooled You' (150571) that was released in 1999 by breeder Jim Waltrip. A newer variety 'Tricked You' is replacing 'Fooled You'.
In a 100 gram serving, raw jalapeños provide 29 calories and are an excellent source (> 20% of the Daily Value, DV) of vitamin C, vitamin B6 and vitamin E, with vitamin K in a moderate amount (table). Protein, dietary fiber, fat and other essential nutrients are low in content (table).
|Nutritional value per 100 g (3.5 oz)|
|Energy||121.336 kJ (29.000 kcal)|
|Dietary fiber||2.8 g|
|Vitamin A equiv.||
|Capsaicin||0.01g – 6 g|
†Percentages are roughly approximated using US recommendations for adults. |
Source: USDA Nutrient Database
Scoville heat unitsEdit
Compared to other chillies, the jalapeño heat level varies from mild to hot depending on cultivation and preparation and can have from a few thousand to over 10,000 Scoville heat units. The number of scars on the pepper, which appear as small brown lines, called 'corking', has a positive correlation with heat level, as growing conditions which increase heat level also cause the pepper to form scars. For US consumer markets, 'corking' is considered unattractive; however, in other markets, it is a looked for trait, particularly in pickled or oil preserved jalapeños.
The heat level of jalapeños varies even for fruit from the same plant; however some cultivars have been bred to be generally milder, and on the low side of the heat range, such as the TAM Milds and Dulcito, and others to be generally hotter, and on the high end of the heat range, such as Grande. As the peppers ripen their pungency increases, making red jalapeños to be generally hotter than green jalapeños, at least of the same variety. If the jalapeño plants were stressed by increased salinity in the water, erratic watering, temperature, light, soil nutrition, by insects, or illness this will increase the pungency of the produced jalapeños.
All of the capsaicin and related compounds are concentrated in vesicles found in the placenta membrane surrounding the seeds; the vesicles appear white or yellow and fluoresce in the range of 530– 600 nm when placed in violet light. If fresh chili peppers come in contact with the skin, eyes, lips or other membranes, irritation can occur; some people who are particularly sensitive wear latex or vinyl gloves while handling peppers, if irritation does occur washing the oils off with hot soapy water and applying vegetable oil to the skin may help. When preparing jalapeños, it is recommended that hands not come in contact with the eyes as this leads to burning and redness.
- Stuffed jalapeños are hollowed out fresh jalapeños (served cooked or raw) filled with seafood, meat, poultry, or cheese.
- Pickled jalapeños, a type of pickled pepper, sliced or whole, are often served hot or cold on top of nachos, which are tortilla chips with melted cheese on top, a traditional Tex-Mex dish.
- Chipotles are smoked, ripe jalapeños.
- Jalapeño jelly, which is a pepper jelly, can be prepared using jelling methods.
- Jalapeño peppers are often muddled and served in mixed drinks.
- Jalapeño poppers are an appetizer; jalapeños are stuffed with cheese, usually cheddar or cream cheese, breaded or wrapped in bacon, and cooked.
- Armadillo eggs are jalapeños or similar chilis stuffed with cheese, coated in seasoned sausage meat and wrapped in bacon. The "eggs" are then grilled until the bacon starts to crisp.
- Chiles toreados are fresh jalapeños that are sauteed in oil until the skin is blistered all over. They are sometimes served with melted cheese on top.
- Texas toothpicks are jalapeños and onions shaved into straws, lightly breaded, and deep fried.
- Chopped jalapeños are a common ingredient in many salsas and chilis.
- Jalapeño slices are commonly served in Vietnamese pho and bánh mì, and are also a common sandwich and pizza topping in the West.
Jalapeños are a high-acid food with a pH of 4.8-6.0 depending on maturity and individual pepper. Improperly canned jalapeños can have botulism and in 1977 home-canned jalapeños led to the largest outbreak of botulism in the US in over a century. If canned or pickled jalapeños appear gassy, mushy, moldy, or have a disagreeable odor, then to avoid botulism, discard the food and boil the jar, lid and contents for 30 minutes in water, scrub all surfaces that may have come in contact with it, and wash all clothing and hands; discarding sponges or towels used in the cleanup in a plastic bag. Canning or packaging in calcium chloride increases the firmness of the peppers and the calcium content, whether or not the peppers are pickled as well as canned.
In 2008, fresh jalapeños from Mexico were tested positive for Salmonella leading the FDA to believe that the peppers were responsible for much of the 2008 United States salmonellosis outbreak. This large outbreak of Salmonella led to increased research into the detection of foodborne illnesses on jalapeños, the frequency and behavior of foodborne illness on jalapeños, and ways to prevent foodborne illnesses on fresh jalapeños. Contaminated irrigation water and processing water are the two most common methods by which jalapeños become infected, as was the case in the 2008 outbreak. Jalapeños have similar microbial properties to tomatoes. The outer layer of their skin provides a safe environment for foodborne illnesses to survive and if damaged or chopped provides a growth medium for pathogens. Washing fresh jalapeños is important to reduce pathogen counts both at the farm and consumer level, but without cold storage it is insufficient to prevent pathogen spread.
The Guinness World Records for most jalapeños eaten in a minute is 16 by Alfredo Hernandes on 17 September 2006 at La Costeña Feel the Heat Challenge in Chicago, IL, USA. Patrick Bertoletti holds the Major League Eating jalapeño records at 275 pickled jalapeños in 8 minutes on 1 May 2011, and 191 pickled jalapeños in 6.5 minutes on 16 September 2007 in the 'Short-Form'. Joaquín Guzmán "El Chapo" leader of the Sinaloa Cartel operated a cannery in Guadalajara producing "Comadre Jalapeños" in order to ship cocaine to the US.
- Jalapeño. Merriam-Webster.
- Sanogo, Soum (April 2003). "Chile Pepper and The Threat of Wilt Diseases". Plant Health Progress. Retrieved 4 August 2015.
- González-Zamora, A; Sierra-Campos, E; Luna-Ortega, J. G; Pérez-Morales, R; Rodríguez Ortiz, J. C; García-Hernández, J. L (2013). "Characterization of different Capsicum varieties by evaluation of their capsaicinoids content by high performance liquid chromatography, determination of pungency and effect of high temperature". Molecules. 18 (11): 13471–86. doi:10.3390/molecules181113471. PMID 24184818.
- Zaslavsky, Nancy. "Jalapeño vs. Serrano: A Hot Debate Over Flavor". zesterdaily.com. World W/Recipe. Retrieved 4 August 2015.
- Votava, Eric J.; Bosland, Paul W. (April 1998). "NuMex Piñata' Jalapeño Chile" (pdf). HortScience. 33 (2): 350. Retrieved 5 August 2015.
- Arvizu, Alejandrina Aguirre. "Veracruz busca la denominación de origen para el chile jalapeño". Contenido. Archived from the original on 27 January 2013. Retrieved 20 May 2016.
- Tang, Phillip. "Hot and spicy in Mexico: the chili experience". lonelyplanet.com. Retrieved 4 August 2015.
- Hill, Theresa A.; Ashrafi, Hamid; Reyes-Chin-Wo, Sebastian; Yao, JiQiang; Stoffel, Kevin; Truco, Maria-Jose; Kozik, Alexander; Michelmore, Richard W.; Van Deynze, Allen; Zhang, Jianwei (8 February 2013). "Characterization of Capsicum annuum Genetic Diversity and Population Structure Based on Parallel Polymorphism Discovery with a 30K Unigene Pepper GeneChip". PLoS ONE. 8 (2): e56200. doi:10.1371/journal.pone.0056200. PMC . PMID 23409153.
- Bosland, Paul W. (August 1999). "Chiles: A Gift from a Fiery God". HortScience. 34 (5): 809–811.
- Powis, Terry G.; Gallaga Murrieta, Emiliano; Lesure, Richard; Lopez Bravo, Roberto; Grivetti, Louis; Kucera, Heidi; Gaikwad, Nilesh W.; Hart, John P. (13 November 2013). "Prehispanic Use of Chili Peppers in Chiapas, Mexico". PLoS ONE. 8 (11): e79013. doi:10.1371/journal.pone.0079013. PMC . PMID 24236083.
- Burton, Tony. "The cultivation of chiles in Mexico". geo-mexico.com. Retrieved 4 August 2015.
- "La Costeña". vilore.com. Retrieved 4 August 2015.
- Ozores-Hampton, Monica; McAvoy, Gene. "Jalapeño and Other Hot Pepper Varieties for Florida". ufl.edu. Horticultural Sciences Department, UF/IFAS Extension. Retrieved 4 August 2015.
- Naeve, Linda. "Bell and Chili Peppers". agmrc.org. Retrieved 4 August 2015.
- Coon, Danise; Bosland, Paul (Fall 2005). Coon, Chris, ed. "2004 World Chile Pepper Production Statistics" (pdf). The Chile Pepper Institute Newsletter. 16 (3): 1–2. Retrieved 5 August 2015.
- Bosland, Paul W. (2005). "Second Generation (F2) Hybrid Cultivars for Jalapeño Production". HortScience. 40 (6): 1679–1681. Retrieved 31 August 2015.
- A-J Farm Editor (20 May 2001). "One hot crop: Chili peppers growing on area farmers". Lubbock Avalanche-Journal. WAYNE BOARD. Retrieved 4 August 2015.
- Carter, Anne K.; Vavrina, Charles S. "High Temperature Inhibits Germination of Jalapeño and Cayenne Pepper". HortScience. 36 (4): 724–725. Retrieved 10 February 2016.
- Barnes, Lucas. "Jalapeno Peppers". plantdex.com. Archived from the original on 29 September 2015. Retrieved 4 August 2015.
- Johnson, Charles D.; Decoteau, Dennis R. (December 1996). "Nitrogen and Potassium Fertility Affects Jalapeno Pepper Plant Growth Pod Yield, and Pungency". HortScience. 31 (7): 1119–1123.
- Zitter, Thomas A. "Phytophthora Blight of Cucurbits, Pepper, Tomato, and Eggplant". vegetablemdonline.ppath.cornell.edu. Cornell University. Retrieved 4 August 2015.
- Bosland, Paul W. (October 2010). "'NuMex Vaquero' Jalapeño". HortScience. 45 (10): 1552–1553. Retrieved 5 August 2015.
- "Diseases, Disorders & Insects". chilepepperinstitute.org. Retrieved 4 August 2015.
- Goldberg, Natalie P. "Chile Pepper Diseases". aces.nmsu.edu. College of Agriculture, Consumer and Environmental Sciences New Mexico State University. Retrieved 4 August 2015.
- Cantwell, Marita. "Chile Pepper: Recommendations for Maintaining Postharvest Quality". postharvest.ucdavis.edu. Department of Plant Sciences, University of California, Davis. Retrieved 4 August 2015.
- Hall, T.Y.; Skaggs, R.K. "New Mexico's Chile Pepper Industry: Chile Types and Product Sourcing". aces.nmsu.edu. College of Agricultural, Consumer and Environmental Sciences New Mexico State University. Retrieved 4 August 2015.
- Bosland, Paul W. "Pepper Cultivars". NCSU. Retrieved 31 August 2015.
- Crosby, Kevin M.; Villalon, Benigno (2002). "'TAM mild Jalapeno II': A New Multiple-virus-resistant, Mild Jalapeno Pepper" (PDF). HortScience. 37 (6): 999–1000.
- Bosland, Paul W. (2010). "'NuMex Vaquero' Jalapeno". HortScience. 45 (10): 1552–1553.
- Villalón, Benigno; Dainello, Frank J.; Bender, David A. (September 1994). "'Jaloro' Hot Yellow Jalapeno Pepper". HortScience. 29 (9).
- Crosby, Kevin M.; Jifon, John L.; Villalon, Benigno; Leskovar, Daniel I. (2007). "'TAM Dulcito', a New, Multiple Virus-resistant Sweet Jalapeño Pepper". HortScience. 42 (6): 1488–1489. Retrieved 1 September 2015.
- Takeda, K.Y.; Tanaka, J.S.; Sekioka, T.T.; Hamilton, R.A. (1996). "'Kaala' and 'Waialua' Peppers" (PDF). HortScience. 31 (6): 1054. Retrieved 1 September 2015.
- Bosland, Paul W.; Votava, Eric J. (1998). "'NuMex Primavera' Jalapeno". HortScience. 33 (6): 1085–1086.
- Vegetable Cultivar Descriptions for North America : Pepper (A-L); Department of Agronomy and Horticulture; New Mexico State University.
- Tricked You brand of SV8066HJ with X3R; Seminis Vegetable Seeds.
- Tewksbury, Joshua J.; Reagan, Karen M.; Machnicki, Noelle J.; Carlo, Tomás A.; Haak, David C.; Calderón Peñaloza, Alejandra Lorena; Levey, Douglas J. (19 August 2008). "Evolutionary ecology of pungency in wild chilies". Proceedings of the National Academy of Sciences of the United States of America. 105 (33): 11808–11811. doi:10.1073/pnas.0802691105. PMC . PMID 18695236. Retrieved 4 August 2015.
- Arrowsmith, Sarah; Egan, Todd P.; Meekins, J. Forrest; Powers, Dale; Metcalfe, Marcia (March 2012). "Research Article: Effects of salt stress on capsaicin content, growth, and fluorescence in a jalapeño cultivar of Capsicum annuum (Solanaceae)". BIOS. 83 (1): 1–7. doi:10.1893/0005-3155-83.1.1.
- Phimchan, Paongpetch; Techawongstien, Suchila (September 2012). "Impact of Drought Stress on the Accumulation of Capsaicinoids in Capsicum Cultivars with Different Initial Capsaicinoid Levels". HortScience. 47 (9): 1204–1209.
- Bosland, Paul; Coon, Danise; Cooke, Peter H. (June 2015). "Novel Formation of Ectopic (Nonplacental) Capsaicinoid Secreting Vesicles on Fruit Walls Explains the Morphological Mechanism for Super-hot Chile Peppers". Journal of the American Society for Horticultural Science. 140 (3): 253–256.
- "Handling Hot Peppers". BHG.com. BHG. Retrieved 4 August 2015.
- Staff, Healthwise; Blahd Jr., MD, William H.; O'Connor, MD, H. Michael. "Chili Pepper Burns". WebMD.com. Retrieved 4 August 2015.
- Wachler, MD, Brian S. Boxer. "Eye Injuries in the Kitchen". WebMD.com. Retrieved 4 August 2015.
- Staff, Healthwise; Husney, MD, Adam; Romito, MD, Kathleen. "Capsaicin". WebMD.com. Retrieved 4 August 2015.
- "Capsaicin Material Safety Data Sheet" (PDF). sciencelab.com.
- Terranova, W; Breman, JG; Locey, RP; Speck, S (August 1978). "Botulism type B: epidemiologic aspects of an extensive outbreak". American Journal of Epidemiology. 108 (2): 150–6. doi:10.1093/oxfordjournals.aje.a112599. PMID 707476.
- Hodge, James G. "Botulinum Toxin". jhsph.edu. Johns Hopkins Center for Public Health Preparedness. Retrieved 4 August 2015.
- Harris, Linda J. "Publication 8004 Pepper Safe Methods to Store, Preserve, and Enjoy" (PDF). ANR UCDavis. Agricultural and Natural Resources, University of California. Retrieved 5 August 2015.
- Saldana, Guadalupe; Meyer, Robert (September 1981). "Effects of Added Calcium on Texture and Quality of Canned Jalapeno Peppers". Journal of Food Science. 46 (5): 1518–1520. doi:10.1111/j.1365-2621.1981.tb04210.x.
- Howard, L.R.; Burma, P.; Wagner, A.B. (November 1994). "Firmness and Cell Wall Characteristics of Pasteurized Jalapeño Pepper Rings Affected by Calcium Chloride and Acetic Acid". Journal of Food Science. 59 (6): 1184–1186. doi:10.1111/j.1365-2621.1994.tb14672.x.
- Castro-Rosas, Javier; Gómez-Aldapa, Carlos A.; Acevedo-Sandoval, Otilio A.; González Ramírez, Cesar A.; Villagomez-Ibarra, J. Roberto; Hernández, Norberto Chavarría; Villarruel-López, Angélica; Torres-Vitela, M. del Refugio (1 June 2011). "Frequency and Behavior of Salmonella and Escherichia coli on Whole and Sliced Jalapeño and Serrano Peppers". Journal of Food Protection. 74 (6): 874–881. doi:10.4315/0362-028X.JFP-10-398.
- Neetoo, Hudaa; Chen, Haiqiang (June 2012). "High pressure inactivation of Salmonella on Jalapeño and Serrano peppers destined for direct consumption or as ingredients in Mexican salsa and guacamole". International Journal of Food Microbiology. 156 (3): 197–203. doi:10.1016/j.ijfoodmicro.2012.03.019. PMID 22534353.
- "THE RECENT SALMONELLA OUTBREAK: LESSONS LEARNED AND CONSEQUENCES TO INDUSTRY AND PUBLIC HEALTH". Government Printing Office. Retrieved 1 September 2015.
- Pao, Steven; Long, Wilbert; Kim, Chyer; Rafie, A. Reza (April 2012). "Population Rebound and Its Prevention on Spray Washed and Non-washed Jalapeño Peppers and Roma Tomatoes in Humid Storage". Foodborne Pathogens and Disease. 9 (4): 361–366. doi:10.1089/fpd.2011.1051.
- Bernstein, JA; Davis, BP; Picard, JK; Cooper, JP; Zheng, S; Levin, LS (August 2011). "A randomized, double-blind, parallel trial comparing capsaicin nasal spray with placebo in subjects with a significant component of nonallergic rhinitis". Annals of Allergy, Asthma & Immunology. 107 (2): 171–8. doi:10.1016/j.anai.2011.05.016. PMID 21802026.
- "State symbols: Texas Legislature Online". capitol.state.tx.us. Texas Legislature. Retrieved 4 August 2015.
the designation of the jalapeno as the official State Pepper of Texas will provide suitable recognition for this delicious and indispensable staple of Texas cuisine
- "Space Shuttle Food-System Summary 1981 - 1986; page; 34-1" (PDF). NASA. Retrieved 12 December 2017.
- "Most jalapeno chilli peppers eaten in one minute". guinnessworldrecords.com. Retrieved 4 August 2015.
- "Records". majorleagueeating.com. Retrieved 4 August 2015.
- Keefe, Patrick Radden (15 June 2012). "Cocaine Incorporated". New York Times. Retrieved 19 August 2015.