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Response of germination traits of two bean species (Pachyrhizus erosus and Phaseolus vulgaris) to fertilizer treatments under drought stress
Marzieh Hasani, Dr Mahmoud Reza Tadayon, Dr Majid Olia,
Volume 11, Issue 2 (3-2025)
Abstract
Extended abstract
Introduction: Germination and seedling emergence are among the most critical developmental stages in crop plants, significantly influencing subsequent growth stages in the field. These traits are directly linked to seed vigor and potential. The application of organic and biofertilizers can enhance seed and seedling vigor, enabling them to withstand environmental stresses such as drought and aridity. To investigate this, the effects of drought stress and fertilizer treatments on germination indices of two plant species (red bean (Phaseolus vulgaris L.) and Yam (Pachyrhizus erosus (L.) Urban) were examined.
Materials and methods: The seeds of Yam and red bean (Goli variety) were subjected to four levels of drought stress (0, -6, -9, and -12 bar) and four fertilizer treatments: control (no fertilizer), optimal biological fertilizer (EM), optimal organic vinasse fertilizer, and a combination of biological and organic fertilizers (at optimal levels). A factorial experiment was conducted based in a completely randomized design with three replications at the University of Shahrekord during the 2022-2023 growing season.
Results: The results revealed that the triple interaction of plant species, fertilizer treatments, and drought stress had a significant effect (p < 0.01) on germination percentage, germination rate, seed vigor index, shoot and radicle length, as well as fresh and dry weights of shoots and radicles. Under non-stressed conditions, the Yam species treated with combined fertilizers exhibited the highest mean values for germination percentage (100%), germination rate (42.5 seeds/day), seed vigor index (8.55), shoot length (5.66 cm), shoot fresh weight (0.69 g), shoot dry weight (0.12 g), radicle fresh weight (0.77 g), and radicle dry weight (0.11 g). Under moderate drought stress (−9 bar), the mean radicle length of Yam treated with combined fertilizers was 6.33 cm.
Conclusion: In this study, the application of fertilizer treatments enhanced greater tolerance to water stress conditions and reduced water potential, while drought stress treatments led to a decline in the examined traits in both bean species. However, the Yam species demonstrated superior drought stress tolerance compared to the red bean, making it a more suitable option for cultivation under drought stress conditions.

Highlights:
  1. The novelty of Yam in Iran and the lack of information on the germination and growth characteristics of this plant.
  2. Due to the presence of rotenone in Yam seeds, there was no information about interaction of fertilizer with seed germination traits.
  3. Since Yam is a multipurpose plant with both seed and tuber uses, there was no available data on how its germination traits compare to those of a similar plant, such as beans.

Evaluation of Relative Fitness and Seed Germination Responses to Temperature and Gibberellin in Tribenuron-Methyl Resistant and Sensitive Wild Mustard (Sinapis arvensis) Biotypes
Rafat Hassani Nassab Farzaneh, Ahmad Tobeh, Sodabeh Jahanbakhsh, Rasoul Fakhari, Mohammad Ahmadi,
Volume 12, Issue 1 (9-2025)
Abstract

Objective: This experiment aims to evaluate relative fitness and seed germination indices of tribenuron-methyl sensitive and resistant wild mustard (Sinapis arvensis L.) biotypes under different temperature conditions and gibberellic acid concentrations.
Method: This experiment was conducted in 2023 at the laboratory of the University of Mohaghegh Ardabili. It was performed as a three-factorial arrangement in a completely randomized design (CRD) with three replications. The first factor consisted of two levels (seeds of tribenuron-methyl sensitive and resistant biotypes), the second factor included four levels of gibberellic acid concentration (500, 1000, 1500, and 2000 mg L-1), and the third factor comprised two temperature regimes: 20/15 °C and 15/10 °C (day/night). The measured parameters included germination percentage, germination rate and uniformity, seed water uptake, and seedling vigor index.
Results: The sensitive biotype of wild mustard exhibited a higher final germination percentage, and germination uniformity. The interactions of temperature × biotype and temperature × gibberellic acid concentration were significant on seed water uptake. Furthermore, the rate of water absorption by seeds was higher under the 10/15 °C temperature regime compared to the 20/15 °C (day/night) regime. The sensitive biotype showed a 1.8-fold higher germination rate and a 38% increase in seedling vigor compared to the resistant biotype.
Conclusions: These findings not only contribute to a deeper understanding of the mechanisms underlying herbicide resistance but also demonstrate that while resistance provides a selective advantage, it may entail a physiological cost in the long term. This fitness cost can be leveraged for sustainable weed management. Specifically, farmers could potentially delay wheat sowing—provided it does not compromise wheat yield—to create suboptimal temperature conditions that suppress the germination of resistant wild mustard biotypes. Furthermore, the slower water uptake observed in the resistant biotype suggests that strategic irrigation management could be employed to further inhibit its germination. Additionally, since the germination of resistant wild mustard is slower at lower temperatures, soil temperature monitoring can be utilized to predict the optimal timing for implementing mechanical control measures or post-emergence herbicide applications.

Highlights

  • A simultaneous study of the effects of temperature and gibberellic acid on the germination and growth of herbicide-sensitive and herbicide-resistant wild mustard biotypes.
  • Evaluation of the fitness cost in herbicide-resistant biotypes.
  • Differential effects of growth-affecting factors on the phenotype of two wild mustard biotypes.

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