The present research was conducted to examine the accumulation and remobilization of some promising lines of durum wheat assimilates using a randomized complete block design. In this regard, two experimental groups of stress and normal (no stress) with three replications were compared during two crop years. The analysis of the results included measuring the accumulation and remobilization rates of assimilates using the weighting method as well as investigating the relationship between internode characteristics (length and specifc weight) and dry matter accumulation. The obtained results were indicative of a signifcant diference among various genotypes considering the contribution of diferent internodes to the stem length under normal and stress conditions. In all genotypes, the peduncle internode had the largest contribution to the stem height. Under both conditions, the lower internodes had the highest remobilization as well as dry and specifc weights. The highest rate of remobilization from the lower internodes was detected in G2 genotype under normal and G7, G18, and G6 genotypes under stress conditions. Moreover, the highest remobilization efciency from the lower internodes was observed in G7 and G18 genotypes under stress conditions. The obtained results were indicative of two diferent mechanisms of storage capacity and remobilization ability. As observed, the G14 line was one of the genotypes that revealed the highest specifc weight of peduncle while the rate of remobilization was the lowest in response to stress conditions. The highest rates for the specifc weight of the lower internodes with the lowest rates of remobilization were observed in G4 and G8 lines. According to the results, the wide variation for the accumulation and remobilization of assimilates among the durum wheat genotypes can pave the way for possible trait changes in breeding programs.

1 Van Herwaarden AF, "‘Haying-off’, the negative grain yield response of dryland wheat to nitrogen fertiliser. I. Biomass, grain yield, and water use" 49 : 1067-1081, 1998

2 Xue G, "Use of dry matter content as a rapid and low-cost estimate for ranking genotypic differences in water-soluble carbohydrate concentrations in the stem and leaf sheath of Triticum aestivum L" 60 : 51-59, 2009

3 Plaut Z, "Transport of dry mater into developing wheat kernels and its contribution to grain yield under post-anthesis water deficit and elevated temperature" 86 : 185-198, 2004

4 Abdoli M, "The role of current photosynthesis on grain yield formation, some agronomic characteristics and germination traits in two bread wheat cultivars under terminal drought stress condition" 5 : 1585-1594, 2013

5 Schnyder H, "The role of carbohydrate storage and redistribution in the source-sink relations of wheat and Barley during grain filling–a review" 123 : 233-245, 1993

6 Azhand M, "The impact of source limitations on yield formation, storage capacity and contribution of stem reserves to the growing grains of modern barley cultivars under post-anthesis water deficiency" 4 : 13-24, 2015

7 Gebbing T, "The enclosed and exposed part of the peduncle of wheat(Triticum aestivum)spatial separation of fructan storage" 159 : 245-252, 2003

8 Ebadi A, "The effect of irrigation cut on dry matter remobilization and some of agronomy traits on spring Barley" 4 : 19-37, 2011

9 Mojtabaie Zamani M, "Stem water soluble carbohydrate remobilization in wheat under heat stress during the grain filling" 16 : 401-405, 2014

10 Pureisa M, "Stem internodes reserves and mobilization of Barley genotypes during grain filling under terminal drought" 4 : 2673-2679, 2013

11 Borras L, "Seed dry weight response to source-sink manipulations in wheat, maize and soybean : a quantitative reappraisal" 86 : 131-146, 2004

12 Amira Guellim ; Bertrand Hirel ; Olivier Chabrerie ; Manuella Catterou ; Thierry Tetu ; Frédéric Dubois ; Hela Ben Ahmed ; Thomas Kichey, "Screening for durum wheat (Triticum durum Desf.) cultivar resistance to drought stress using an integrated physiological approach" 한국작물학회 23 (23): 355-365, 2020

13 Reynolds M, "Raising yield potential in wheat" 60 : 1899-1918, 2009

14 Abouzar M, "Postanthesis changes in internodes dry matter, stem mobilization, and relation to the grain yield of barley(Hordeum vulgar L. )" 2 : 553-557, 2012

15 Shearman VJ, "Physiological processes associated with wheat yield progress in the UK" 45 : 175-185, 2005

16 Bishop DL, "Photosynthetic capacity and dry mass partitioning in dwarf and semi-dwarf wheat(Triticum aestivum)" 153 : 558-565, 1988

17 Papakosta DK, "Nitrogen and dry matter accumulation, remobilization, and losses for Mediterranean wheat during grain filling" 83 : 864-870, 1991

18 Cruz-Aguado JA, "Morphological characteristic and yield components associated with accumulation and loss of dry mass in the internodes of wheat" 66 : 129-139, 2000

19 Ahmadi A, "Late defoliation and wheat yield : little evidence of post-anthesis source limitation" 113 : 90-93, 2009

20 Blum A, "Improving wheat grain filling under stress by stem reserves mobilization" 100 : 77-83, 1999

21 Praba ML, "Identification of physiological traits underlying cultivar differences in drought tolerance in rice and wheat" 195 : 30-46, 2009

22 Arduini I, "Grain yield, and dry matter and nitrogen accumulation and remobilization in durum wheat as affected by variety and seeding rate" 25 : 309-318, 2006

23 Yang J, "Grain filling of cereals under soil drying" 169 : 223-236, 2006

24 Yang J, "Grain and dry matter yields and partitioning of assimilate in Japonica/Indica hybrid rice" 42 : 766-777, 2002

25 Joudi M, "Genotypic variation in pre-and postanthesis dry matter remobilization in Iranian wheat cultivars : associations with stem characters and grain yield" 54 : 123-134, 2018

26 Ehdaie B, "Genotypic variation in linear rate of grain growth and contribution of stem reserves to grain yield in wheat" 106 : 34-43, 2008

27 Ehdaie B, "Genotypic variation for stem reserves and mobilization in wheat : I. Post-anthesis changes in internode dry matter" 46 : 735-746, 2006

28 Przulj N, "Genetic variation for dry matter and nitrogen accumulation and translocation in two-rowed spring Barley I Dry matter translocation" 15 : 241-254, 2001

29 Li M, "Genetic dissection of stem WSC accumulation and remobilization in wheat(Triticum aestivum L. )under terminal drought stress" 21 : 50-, 2020

30 Ahmed Sallam ; Mervat Hashad ; El-Sayed Hamed ; Mohamed Omara, "Genetic Variation of Stem Characters in Wheat and Their Relation to Kernel Weight underDrought and Heat Stresses" 한국작물학회 18 (18): 137-146, 2015

31 Khoshro HH, "Expression analysis of the genes involved in accumulation and remobilization of assimilates in wheat stem under terminal drought stress" 74 : 165-176, 2014

32 Sarabadani Tafreshi R, "Evaluation of stem reserves and remobilization in barley lines and cultivars under terminal drought stress" 8 : 279-298, 2019

33 Ardalani S, "Evaluation of grain yield and its relationship with remobilization of dry matter in bread wheat cultivars under water deficit stress at the post-anthesis" 2 : 173-203, 2015

34 Akram Z, "Estimation of correlation coefficient among some yield parameters of wheat under rainfed conditions" 40 : 1777-1781, 2008

35 Rezaei Morad Aali M, "Effect of drought stress on dry matter remobilization and grain yield of winter bread wheat genotypes" 15 : 262-276, 2013

36 Liu Y, "Dynamic responses of accumulation and remobilization of water soluble carbohydrates in wheat stem to drought stress" 155 : 262-270, 2020

37 Ma J, "Dry matter remobilization and compensatory effects in various internodes of spring wheat under water stress" 54 : 331-339, 2014

38 Zareian A, "Dry matter accumulation and remobilization in grain wheat cultivars under drought stress and potassium foliar application treatments" 10 : 1-6, 2014

39 Subhani GM, "Correlation and path coefficient analysis in bread wheat under drought stress and normal conditions" 3 : 72-77, 2000

40 Wardlow IF, "Carbohydrate storage and mobilization by the culm of wheat between heading and grain maturity : the relation of sucrose synthase and sucrose-phosphate synthase" 21 : 255-271, 1994

41 Asseng S, "Analysis of the benefits to wheat yield from assimilates stored prior to grain filling in a range of environments" 256 : 217-229, 2003

42 Mohammadi Bazargani MM, "A view on the role of metabolites in enhanced stem reserves remobilization in wheat under drought during grain filling" 6 : 1613-1623, 2012

43 Mohamamdi R, "A maximin-minimax approach for identifying drought tolerant genotypes based on yield potential and loss in durum wheat" 46 : 545-557, 2018