Germination of guar (Cyamopsis tetragonoloba (L.) Taub.) genotypes with reduced temperature requirements

Gresta, Fabio; Cristaudo, A; Trostle, Calvin; Anastasi, Umberto; Guarnaccia, Paolo; Catara, Stefania; Onofri, Andrea

doi:10.21475/ajcs.18.12.06.pne1049

Cited by 23 publications

(12 citation statements)

References 30 publications

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“…Knowledge on seed germination requirements is crucial to assess the real potential of wild genetic resources to be exploited within agricultural systems [ 46 , 47 ]. This is particularly important for legumes, where the role of seed coat in imposing PY has been widely recognized [ 6 , 7 , 48 ].…”

Section: Discussionmentioning

confidence: 99%

Seed Dormancy Breaking and Germination in Bituminaria basaltica and B. bituminosa (Fabaceae)

Carruggio

Onofri

Impelluso

et al. 2020

Plants

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Most legumes are well-known for the physical dormancy of their seeds; hence, the implementation of appropriate scarification techniques is essential for introducing new legume crops within agricultural systems. This study investigated morpho-anatomical traits and dormancy-breaking requirements in two taxa of the genus Bituminaria: the widespread B. bituminosa and the point endemic B. basaltica. As the species under investigation show monospermic indehiscent legumes, pods were used in this research. We performed pod trait measurements, light microscopy observations on the seed coat anatomical structure, and germination tests after mechanical, thermal, and chemical scarification treatments for seed dormancy breaking. Moreover, germination performance at different pod maturity stages and storage times was tested. Differences in morpho-anatomical traits were found, with B. basaltica having a thicker palisade cell layer and B. bituminosa showing larger pods. All of the scarification treatments proved to be able to break physical dormancy, with mechanical and chemical scarification being the most effective methods in both species. Nevertheless, dormancy-breaking treatments performed better in B. bituminosa. Seeds at early pod maturity stages showed higher germination capacity in both species. Overall, this research provided background knowledge on seed collection time, storage strategy, and effective pre-sowing treatment, which might contribute to enhance propagation and use of Bituminaria species for multiple purposes. Under this perspective, the future characterization of additional Bituminaria genetic resources from other Mediterranean populations will have remarkable importance.

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Section: Discussionmentioning

confidence: 99%

Seed Dormancy Breaking and Germination in Bituminaria basaltica and B. bituminosa (Fabaceae)

Carruggio

Onofri

Impelluso

et al. 2020

Plants

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“…The Climate. Temperature is one of the main environmental factors that affect seed germination [30]. It has to be considered at planting time keeping in mind the crop cycle which can be longer than 160 days in large cycle genotypes [30].…”

Section: Soil and Climatementioning

confidence: 99%

“…Temperature is one of the main environmental factors that affect seed germination [30]. It has to be considered at planting time keeping in mind the crop cycle which can be longer than 160 days in large cycle genotypes [30]. The climates considered as optimal for Mexico were both: the sub-humid zones cataloged as Aw, Bs, Cf and the temperate regions Cs and Cw (Table 1) while the optimum temperature was in the range of 25˚C to 30˚C.…”

Section: Soil and Climatementioning

confidence: 99%

Potential Areas for Growing <i>Cyamopsis tetragonoloba</i> (L.) under Rainfed Conditions in Mexico

Jaramillo¹,

Lozano-Contreras²,

Silva³

2019

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Cyamopsis tetragonoloba (L.) Taub., commonly known as guar gum, is a legume of great industrial importance due to the multiple uses which can be given by galactomannans contained in the seed's endosperm. Keeping in mind the acquiring relevance of this crop, it was considered of great importance to characterize the physical environment and the natural factors in order to locate the most suitable cultivation areas under rainfed conditions. The software Arc/View version 3.3 was used to process and analyze the information. The optimal agroclimatic requirements of guar gum were identified and each variable factor was matched with those found at ground level. A cartographic mapping was carried out to regionalize and locate the optimal and suboptimal zones. It was determined that in Mexico there is a great potential for its cultivation since it was found the existence of 900 thousand hectares with high or optimal potential and more than 200 thousand hectares of medium and sub-optimal potential where crop can be well established under rainfed conditions.

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“…Although the ecological optimum of guar perfectly matches to the conditions of the semi-arid climatic zone of the northwest of India (~27° N), several attempts have been made to introduce this crop into higher latitudes: in the southern states of the USA -Texas (~29° N), Arizona (~34° N), Oklahoma (~35° N) (Lubbers, 1987), in southern Italy (~39° N) (Gresta et al, 2018). The main complication for successful guar cultivation in the countries of the higher latitudes is the prolonged vegetation period of plants causing harvesting delay before the onset of autumn rains, which negatively affects the yield.…”

Section: Introductionmentioning

confidence: 99%

“…Under these conditions, the guar plants completed their vegetation from mid-October to early November. Therefore, it was concluded that early maturity is a key breeding trait for this crop when cultivated in the Mediterranean region (Gresta et al, 2018).…”

Section: Introductionmentioning

confidence: 99%

Variability of the photoperiod response in guar (Cyamopsis tetragonoloba (L.) Taub.) genotypes of different geographic origin

et al. 2019

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The introduction of the new legume crop guar is of great practical importance for Russia, since it serves as a source of valuable vegetable raw material, guar gum, used for the food, gas and oil industry. The main problem with guar cultivation in the southern regions of the Russian Federation is that this plant should be grown under a short photoperiod. Prolonged daylight exposure is an obstacle to the timely transition of guar to flowering, which dramatically affects its productivity. In the study, 192 guar genotypes from the VIR collection were tested for the speed of transition to flowering on an extremely long photoperiod (18.2-18.9 h) in the greenhouse of the Pushkin experimental station of VIR (St. Petersburg). At the same time, the earliness of maturation of the same genotypes was estimated under the field conditions in the Kuban experimental station of VIR (Krasnodar area). Among the samples tested, genotypes with weak photoperiodic sensitivity (which were also early maturated under the conditions of Krasnodar), as well as the highly photoperiod-sensitive genotypes were identified. It has been established that for the same guar plant the critical photoperiod initiating the formation of buds may not coincide with the critical photoperiod required for their flushing (i. e. flowering per se). The observed fact confirms the hypothesis reported earlier about a two-stage launch of the flowering program in guar, according to which budding and flowering itself are controlled by independent gene systems. According to our results, the successful breeding of early mature guar varieties ultimately depends on the first gene system that controls the initiation of budding in response to a critical photoperiod. We suggest that another hypothetical gene system can influence the dates of guar flowering, which determines the speed of vegetative development of a specific genotype, measured as the number of days from germination to the appearance of the first true leaf. Thus, sensitivity to photoperiod in guar is only one of several factors that determine the speed of a plant's transition to flowering, and it should not be assessed on the basis of the length of the period from germination to flowering, which is common in breeding practice. The results of the study show that, although the photoperiod sensitivity of guar limits the range of geographic latitudes in which the legume crop can be successfully grown, there is a real opportunity to overcome this limitation by selecting and propagating photoperiod-insensitive genotypes from the enormous genetic diversity of this species.

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Germination of guar (Cyamopsis tetragonoloba (L.) Taub.) genotypes with reduced temperature requirements

Cited by 23 publications

References 30 publications

Seed Dormancy Breaking and Germination in Bituminaria basaltica and B. bituminosa (Fabaceae)

Seed Dormancy Breaking and Germination in Bituminaria basaltica and B. bituminosa (Fabaceae)

Potential Areas for Growing <i>Cyamopsis tetragonoloba</i> (L.) under Rainfed Conditions in Mexico

Variability of the photoperiod response in guar (Cyamopsis tetragonoloba (L.) Taub.) genotypes of different geographic origin

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Germination of guar (Cyamopsis tetragonoloba (L.) Taub.) genotypes with reduced temperature requirements

Cited by 23 publications

References 30 publications

Seed Dormancy Breaking and Germination in Bituminaria basaltica and B. bituminosa (Fabaceae)

Seed Dormancy Breaking and Germination in Bituminaria basaltica and B. bituminosa (Fabaceae)

Potential Areas for Growing &lt;i&gt;Cyamopsis tetragonoloba&lt;/i&gt; (L.) under Rainfed Conditions in Mexico

Variability of the photoperiod response in guar (Cyamopsis tetragonoloba (L.) Taub.) genotypes of different geographic origin

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Product

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Potential Areas for Growing <i>Cyamopsis tetragonoloba</i> (L.) under Rainfed Conditions in Mexico