Determination of the Microspore Development Concerning Floral Morphology for Improving Drought Tolerant Citron Watermelon (Citrullus lanatus var. citroides) Rootstocks Via Androgenesis.

Abstract

The negative effects of abiotic stress factors (especially drought and salinity) that arise due to global climate change are increasing in today’s agricultural production. To eliminate the negative effects of these stress factors, some cultural practices have been implemented such as the breeding of tolerant cultivars and rootstock, exogenous applications of PGPR, AMF, and chemical substances, etc. Contrary to exogenous applications, providing tolerance with breeding methods has an important role in efficient and sustainable agriculture. Androgenesis is a phenomenon for the induction and development of microspore-derived pure lines, as initial material for F1 cultivar breeding, in different vegetable crops. Success in microspore embryogenesis is considerably related to the culture of microspores at an appropriate developmental stage. There is no standard protocol for the anther culture in citron watermelon (Citrullus lanatus var. citroides). Thus, a relation between floral morphology (bud length and width, bud index, sepal position, petal color), and microspore development (microspore diameter, uninucleated and binucleated phases) was investigated in citron. The male flower buds were collected at different sizes and microspore development was observed in both light and fluorescence microscopy. A strong positive relationship was detected between flower bud morphology and the specific stages of microspore development. To the author’s knowledge, this is the first report to indicate that the microspore developmental stage can be estimated by flower bud morphology, and applied in the anther/microspore culture of citron watermelon.