Tóth Zoltán 1, Gábor Gyulai 1, Zoltán Szabó 1,2 , Lajos Horváth 3 and László Heszky 1 ( l. lanatus) production in Hungary from the Middle Ages (13 th century)

3,000-yr old watermelon seeds Egypt and Libya implies that tion of a site from 4,000 B.C. in pyramid of Pharaoh domestication might have About 5,000-yr old seed remains Tutankhamum occurred in Northern . were excavated in Uan (ca. 1,330 B.C.) The oldest seed remains with Muhuggiag, Lybia, Africa from a proven human activity have site 3,000 B.C. Several watermel - The monotypic genus Citrullus revealed only cereals as wild on seeds were found in Pharaoh ’s is comprised of only four diploid barley (H. spontaneum ) and wild tomb as in Thebes (New (2n = 4× = 22; 4.25 – 4.54 × 10 8 emmer ( Triticum dicoccoides ) Kingdom: 1,550 –1,070 B.C.; bp; 0.42 pg DNS) species, includ - from 19,000 B.P. at Ohalo II., stored in Agricultural Museum, ing the annual watermelon River Jordan. The 15,000 B.P. site Dokki, Giza, Egypt) and in the (Citrullus lanatus ), the perennial in Korea (Chungbuk National pyramid of Tutankhamum ca. colocynth ( syn. : bitter apple) University, South Korea) revealed 1,330 B.C. ( Fig. 1). ( ), and two the first ancient rice ( Oryza sati - The Greeks and Romans trav - wild species growing in Kalahari va ) seeds. eling to Egypt must to have Desert, Africa as the Citrullus The first Cucurbit seed known of probably ecirrhosus with bitter-tasting fruit, remains were excavated from the without discriminating colocynth, and the annual Citrullus rehmii Spirit Cave (Hoabinh, Thailand) , and watermelon. with pink and olive green spotted, including cucumber type Pliny wrote about a wild (proba - mandarin sized, non-edible fruits. seeds at least 9,180 ± 360 B.P. as bly the current colocynth) and two Unlike genus Citrullus , species analyzed by C 14 of bamboo char - types (one with pale green, and the watermelon ( Citrullus lanatus ) coal. The oldest, 6,000-yr old other with grass green rind) of cul - comprises diverse varieties, sub - watermelon ( Citrullus l. lanatus ) tivated “colocynth ” (probably the species, mutants and feral forms seeds were excavated in Helwan current watermelon), as it has such as the cultivated watermelon (Egypt, Africa), from the excava - been written: “A nother kind of (C. lanatus lanatus ) (syn.: C. vul - garis ) with its ancient form of cit - ron melon ( syn .: tsamma) (Citrullus lanatus citroides ); and the seed mutant type water - melon ( C. lanatus mucosper - mum ). Watermelon ( ‘görög- dinnye ’), citron ( ‘takarmány din - nye ’) and colocynth ( ‘sártök ’) have a history of production in Figure 1. The most ancient seed remains of watermelon ( Citrullus l. Europe. lanatus ). ( 1) 6,000-yr old seed B.P. from Helwan, Egypt (Barakat 1990); The primary gene center for (2) 5,000-yr old seed B.P. from Uan Muhuggiag (Lybia) (Wasylikowa and watermelon is not known. The Veen 2004) (1mm size bar); ( 3) 3,550-3,070-yr old seeds B.P. Pharaoh ’s presence of five and six thousand tomb, Thebes (New Kingdom; stored in Agricultural Museum, Dokki, year-old seeds of C. lanatus in Giza, Egypt) (Warid 1995)

1,2 Szent István University, 1Institute of Genetics and Biotechnology 2Institute of Botany, Gödöllô, H-2103, Hungary 3Institute of Agrobotany, Tápiószele, H-2766, Hungary

14 Hungarian Agricultural Research 2007/4 Figure 2. References and illustration of Citrullus : ( 1) Pliny ( Plinius ) II (23-79; ‘cultivated Colocynth ’); ( 2) Dioscorides (1st cent, and 512 A.D.; the first colorur painting of C. colocynthis ); ( 3) Ibn Al-Awwam (1158): Book of Agricuture ; (4 ) Fresco in the Villa Farnesina , Rome, Italy (1517) painted by Giovanni Martini da Udine (Janick and Paris 2006); ( 5a ) Herbarium sample of watermelon, G. Bauhin (1560-1624) ( 5b ); ( 6) Caravaggio, 1603, Still Life with and Carafe of White Wine ; ( 7) Linnaeus (1740) Sytema Naturae. wild is called Colocynthis. ripens) and a red seed type (with from G Bauhin ’s (1560 –1624) The fruit is smaller than the culti - green rind which turns to yellow). collections (Fig. 2), who named it vated one, and full of seeds. The Watermelon might have also been Anguira citrullus (personal com - pale variety is more useful than introduced to Europe through munication, Mark Spencer, The the grass-green one …” (Pliny 23- Crusaders led by either Richard I. Natural History Museum, 79) (Fig. 2). The Lion-Hearted (the 3 rd London, UK). No watermelon In the Codex De Materia Crusaders, 1190 –1199), or the herbarium sample remained from Medica produced not too long Hungarian King, Endre II. of the C Linnaeus (1753) collections, after the time of Pliny Árpád Dynasty (the last, 6 th who named watermelon as (Dioscorides 1 st century and the Crusaders, 1228 –1229). Water- citrullus , and clocynt as second ‘edition ’ from 512 A.D. melon spread through Europe Cucumis colocynthis (personal with colour paintings) contains quickly and became very popular communication, , The Linnean nearly 400 color paintings of dif - and commonly cultivated fruit of Herbarium , Swedish Museum of ferent but no watermelon Renaissance Europe, with the first Natural History, Sockholm, S) . illustration, only a precise colour illustration on the frescoes in Villa painting of “colocynth ” which Farnesina , Rome, Italy, 1517 B.C. Archaeogenetics and crop looks very much like the current (painted by Giovanni Martini da evolution forms of colocynth ( Citrullus Udine). By 800 A.D., watermelons colocynthis ) (Fig. 2). had been introduced to India and The aDNA (ancient DNA) Six hundred years later, when by 1,100 A.D. to China. It reached samples recovered from excavated the Iberian Peninsula was con - the New World after Columbus ’ remains of plants and animals sup - quered by the Berbers (Moors) led second voyage in 1493 and dis - ply unique materials not only for by Tarik Ibn Ziyad in 711 A.D., persed quickly among American the analysis of post-mortem DNA new watermelon types entered natives. One of the most ancient degradation, but also for tracing Europe as shown in the ancient forms of small, round fruit with vegetation history and micro-evo - record of Book of Agricuture (Al- thin, green rind, red flesh and lution. The complete genome or Awwam 1158). In this book two small black seeds has survived up intact DNA sequences can be cultivated forms were compared, a to the recent times. reconstructed in the case of opti - black seed type (with dark-green One of the oldest watermelon mal preservation conditions rind which turns black when it herbarium sample is available (Szabó et al. 2005; Lágler et al.

Hungarian Agricultural Research 2007/4 15 2005; Gyulai et al. 2006). In this study we present the aDNA analy - ses of 700, 600- and 170-year-old watermelons together with a com - parison to modern cultivars.

How to recover ancient DNA Seed samples: Seed remains of watermelon ( Citrullus l. lanatus ) from the 13 –14 th century were excavated in Debrecen, Hungary (by Hajdu Zs. et al. Déri Museum; Debrecen; http://www. derimuz. hu/hirek/2006/kutak.html). In Figure 3. Map of Europe showing the excavation sites from the total, 95,133 seed remains of 206 13 th –14 th century A.D. Debrecen ( 1), the 15 th century A.D. Budapest ( 2); species were identified; of and the 19 th centuryherbarium sample at Pannonhalma (Hungary) ( 3) them 251 were watermelon seeds with the sam morphological th Table 1. List of the current cultivars of colocynth ‘(sártök ’)(Citrullus characters. At the 15 century th colocynthis, 1–3) ; citron melon (‘takarmány dinnye ’) ( Citrullus lanatus sites (8 well, Mansion Teleki, citroides 4–6) and watermelon (‘görögdinnye ’) ( Citrullus lanatus King ’s Palace of the Árpád lanatus, 7–44) analyzed Dinasty, Buda Hill, Budapest; and Debrecen, Hungary) 54,415 # Cultivars Short name Latin name Code (Tápiószele) watermelon seeds were excavated 1 Finn 168 Fin. Citrullus colocynthis RCAT036168 2 Belga 172 Bel. Citrullus colocynthis RCAT036172 (Gyulai et al. 2006) (Fig. 3). Wet- 3 Portugál 547 Prt. Citrullus colocynthis RCAT035547 sieved sediment samples were 4 Szeged 099 Szg. Citrullus l. citroides RCAT036099 5 De Bánát 235 Rom. Citrullus l. citroides RCAT035235 processed by floatation followed 6 Újszilvás 816 Újs. Citrullus l. citroides RCAT055816 by seed sorting and identification 7 Bácsbokod 917 Bác. Citrullus l. lanatus RCAT035917 th 8 Napsugár 257 Nap. Citrullus l. lanatus 00257/05 in the laboratory. The 19 century 9 Sándorfalva 105 Snd. Citrullus l. lanatus RCAT036105 (ca. 1836) seeds were collected 10 Dévaványa 101 Dév. Citrullus l. lanatus 5101/02 11 Szentesi sugárhasú 260 Sts. Citrullus l. lanatus 00260/05 from herbarium samples (Pannon- 12 Belyj dlinnij 152 Bed. Citrullus l. lanatus RCAT036152 halma, Hungary). For comparative 13 Ráckeve 812 Rác. Citrullus l. lanatus RCAT055812 14 Csárdaszállás 113 Csr. Citrullus l. lanatus RCAT035113 analysis, forty-four modern 15 Tura 389 Tur. Citrullus l. lanatus RCAT035389 Citrullus species and varieties 16 Biri 114 Bir. Citrullus l. lanatus RCAT035114 17 Klondike R7 096 Kln. Citrullus l. lanatus RCAT036096 were included (Table 1). nSSR 18 Charleston gray 263 Chg. Citrullus l. lanatus 00263/05 analyses were used for molecular 19 Taktaharkány 790 Tkt. Citrullus l. lanatus RCAT034790 20 Túrkeve 112 Trk. Citrullus l. lanatus RCAT035112 genotyping. 21 Ukrainskij 545 149 Ukr. Citrullus l. lanatus RCAT036149 SSR analysis has been applied 22 Szirma 782 Szr. Citrullus l. lanatus RCAT034782 23 Marsowszky 256 Mar. Citrullus l. lanatus 00256/05 to herbarium samples of 100-yr 24 Háromfa 754 Hár. Citrullus l. lanatus RCAT034754 old common reed ( Phargmites 25 Debrecen 111 Deb. Citrullus l. lanatus RCAT035111 26 Sibiriak 098 Sib. Citrullus l. lanatus RCAT036098 australis ) to track plant invasion 27 Nagyecsed 775 Ngye. Citrullus l. lanatus RCAT034775 in North America. Melon 28 Nagykálló 785 Ngyk. Citrullus l. lanatus RCAT034785 29 Hevesi 258 Hev. Citrullus l. lanatus 00258/05 ( ) specific SSRs 30 Nagyvárad 767 Ngyv. Citrullus l. lanatus RCAT034767 were used to identify an inodorus 31 Nyírbátor 155 Nyrb. Citrullus l. lanatus RCAT035155 type melon recovered from 600-yr 32 Oros 862 Oro. Citrullus l. lanatus RCAT035862 33 Rákóczifalva 145 Rák. Citrullus l. lanatus RCAT035145 old seed aDNA. Allelic diversity 34 Kömörô 762 Köm. Citrullus l. lanatus RCAT034762 of microsatellites were also reli - 35 Nyíregyháza 778 Nyre. Citrullus l. lanatus RCAT034778 36 Kecskeméti vöröshúsú 259 Kev. Citrullus l. lanatus 00259/05 ably detected in aDNAs of 4,000- 37 Ilk 236 Ilk Citrullus l. lanatus RCAT035236 yr old seagrass ( Posidonia ocean - 38 Pusztadobos 146 Pusz. Citrullus l. lanatus RCAT035146 39 Gyöngyös 969 Gyn. Citrullus l. lanatus RCAT034969 ica ). Chloroplast microsatellites 40 Crimson sweet 262 CrS. Citrullus l. lanatus 00262/05 were amplified effectively in 100-yr 41 Kibéd 172 Kib. Citrullus l. lanatus 5172./02 42 Sugar baby /Génbanki 261 SuB. Citrullus l. lanatus 00261/05 old dry samples of the grass 43 Lipót 970 Lip. Citrullus l. lanatus RCAT034970 species Anthoxanthum ordoratum 44 Korai kincs 255 Kok. Citrullus l. lanatus 00255/05 and Festuca rubra .

16 Hungarian Agricultural Research 2007/4 Figure 4. Rind ( 4.a ) flash ( 4.b) and seed ( 4.c ) types of current Citrullus species and cultivars at ripening time used (see Table 1) for comparative analyses. Ancient seeds of 13 th –14 th century A.D. Debrecen (in a), 15 th century A.D. Budapest ( b); and 19 th century Pannonhalma ( c) are included. Colour tool bars indicate 25 cm

Watermelon production in Hungary from the Middle Ages microsatellite and chloroplasts of red flesh – and not yellow loci with a final aim of sequence flesh- watermelon in the Middle Seed remains of watermelon recovery and phenotype recon - Age of Hungary. Red flesh water - (Citrullus lanatus lanatus ) were struction (Fig. 6). melon also appeared in the paint - excavated from two 15 th century Molecular dendrogram (Fig. 7) ing of Still Life with Melons and A.D. sites in Hungary at Budapest based on 737 ALF fragments Carafe of White Wine (1603 B.C.) and Debrecen. For comparative identified at eleven nuclear painted by Caravaggio. Molecular analysis an herbarium sample microsatellite (nSSR) loci data obtained might provide fur - from the 19 th century A.D. (ca. revealed that middle age samples ther tools for watermelon breed - 1836, Pannonhalma, Hungary) show close lineages to ancient ers. Results of seed morphology and forty-four current Citrullus varieties currently growing with (Fig. 5) correlated to molecular species and varieties were used red flesh colour. The 13 th century results (Fig. 7). The 170-yr-old (Fig. 4). Seed remains were Debrecen sample showed similar - herbarium sample (Pannonhalma) processed by floatation followed ity to cv. ‘Kecskeméti vöröshájú ’; showed close molecular similarity by seed sorting and identification the 15 th century Budapest sample to citron melon ( Citrullus lanatus in the laboratory (Fig. 5). After showed similarity to cv. ‘Belyj citroides ) cv. ‘Újszilvás ’ which morphological analysis, aDNA dlinnij ’ (# 12). These results also reflects the importance of citron was extracted and analyzed at reflect the preferencial cultivation melon ( ‘takarmány dinnye ’) with

Hungarian Agricultural Research 2007/4 17 Figure 5. Individual samples of ancient Citrullus seeds ( a – dorsal and b – ventral view). Watermelon (C. l lanatus ) seed samples excavated at the 13 th - 14 th cent A.D. Debrecen ( 1), the 15 th century A.D. Budapest ( 2); and 19 th century herbarium sample of citron melon ( C. l . citroides ) from Pannonhalma ( 3). Comparative samples of current Citrullus cultivars similar to 13 th -14 th century A.D. sample, Debrecen ( 4 and 7: # 36. cv. ‘Kecskeméti vöröshúsú ’ and # 17. cv. ‘Klondike ´); 15 th century A.D. sample, Budapest (5 and 8: # 12. cv. ‘Belyj dlinnij ’, and # 14. cv. ‘Csárdaszállás ’); and 19 th century herbarium sample of citron melon ( 6 and 9: # 5. cv. ‘De Bánát ’, and # 6. cv. ‘Újszilvás ’) (1mm size bar) Figure 4.c

Figure 7. Molecular dendrogram (Rel Genet Dist, 0 – 25) of current varieties of colocynth ( ’sártök ’) (Citrullus colocynthis, 1–3), citron melon (‘takarmány dinnye ’) ( Citrullus lanatus citroides , 4–6) and watermelon (‘ görögdinnye ’) (Citrullus lanatus lanatus, 7–44 ) compared to archaeological and herbarium samples. Colors of seed coat ( a), flesh ( b) and rind ( c) are indicated.

18 Hungarian Agricultural Research 2007/4 Figure 6. Microsatellite allele diversity at eleven SSR loci in the current Citrullus species and cultivars cultivars (1 –44), medieval (13 th –14 th and 15 th centuries) and herbarium samples (19 th century ) extremely high drought tolerance Bittsánszky, F. Gyulai, L. miliaceum ) cultivars compared to in the Middle-Age Hungary and Heszky (2006): Seed remains of an aDNA sample from the 15th its use for fodder. common millet from the 4 th century (Hungary). Euphytica (Mongolia) and 15 th (Hungary) 146: 77 –85. Acknowledgements centuries; AFLP, SSR, and Szabó Z., G. Gyulai, M. mtDNA sequence recoveries. Humphreys, L. Horváth, A. The project was supported by Seed Science Research 16: Bittsánszky, R. Lágler, L. the Academy of Finland and the 179 –191. Heszky (2005): Genetic varia - Hungarian Academy of Sciences. Lágler R., G. Gyulai, M. tion of melon ( C. melo ) com - Humphreys, Z. Szabó, L. pared to an extinct landrace from References Horváth, A. Bittsánszky, J. Kiss, the Middle Ages (Hungary) I. L. Holly, L. Heszky (2005): rDNA, SSR and SNP analysis of Gyulai G., M. Humph reys, R. Morphological and molecular 47 cultivars. Euphytica 146: Lágler, Z. Szabó, Z. Tóth, A. analysis of common millet ( P. 87 –94.

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