Possible Phytoplasma Disease in Papaya (Carica papaya L.) from Baja California Sur: Diagnosis by Scanning Electron Microscopy

The symptoms of possible phytoplasma infection in introduced and local varieties of papaya were first noted in the Mexican state of Baja California Sur (BCS) during field surveys in 2002–2003. Phytoplasma structures were observed using scanning electron microscopy (SEM) in phloem sieve elements in diseased papaya plants, but not in healthy plants. They were rounded structures 400–1600 nm in diameter. This is the first report of the possible association of phytoplasmas with diseased papaya plants in BCS. The use of SEM for the primary detection of disease aetiology is discussed.     

Micropropagation and field performance of Yucca valida

Yucca valida is an important potential source of steroidal saponins closely related to Yucca schidigera, the species that is commercially exploited from the wild as a source of steroidal extracts. Neither of the species has been domesticated mainly because of their slow growth and long life span before harvesting. Here, we report a micropropagation method to generate isogenic or clonal lines for plantation purposes. Seventeen clonal lines were propagated and evaluated over a period of 26 months in an experimental plantation and compared with the performance of plants from seeds. The large variability found between the plants derived from seeds is manifested in the differences observed between the different clonal lines; however, these present a much smaller internal coefficient of variation than the one observed in the population of plants derived from seeds. Some clonal lines perform in a superior manner indicating that a process of selection and cloning can generate lines of fast growing individuals for plantations that can satisfy the demand for these materials without putting a natural resource at risk.     

No correlation between the growth of in vitro cultured Yucca valida clones and the growth of their mother plants in the field

Yucca valida is a close relative to Yucca schidigera and a potential alternative source of the steroidal saponins extracted from the tissues of the latter. The exploitation from the wild is not only inefficient but endangers the natural populations and an alternative to these would be their domestication and establishment of commercial plantations. Both species have a long life span cycle and low growth rates affected by environmental conditions that make it difficult to select fast growing, high yield elite individuals for cloning purposes. Here, we report the in vitro establishment and propagation of mature Y. valida plants derived from seed that showed very different growth rates in an experimental field and their propagative and growth characteristics in vitro. No correlation was found between the growth of field cultivated plants and the relative increase of fresh (FW) or dry weight (DW) of in vitro cultured plants.     

Antiporter NHX2 differentially induced in Mesembryanthemum crystallinum natural genetic variant under salt stress

Plants exhibit several mechanisms to survive under high salinity conditions. The uptake and compartmentalization of Na⁺ ion by the NHX antiporter is a crucial mechanism in homeostasis maintenance. Therefore, we evaluated McNHX2 gene expression and several physiological responses induced in three natural genetic variants of ice plants under salt stress. Based on morphology and growth behavior of wild type populations from an arid region of northwestern Mexico, we identified three ice plant natural genetic variants and called P0, P9, and P11. Several physiological parameters, such as water potential, relative water content, chlorophyll, and Na⁺ and K⁺ ion contents from all natural genetic variants exhibited a differential response under high salinity conditions. Specifically, the P0 variant showed lower water potential changes and least perturbation of Na⁺/K⁺ ratio than those of the P9 and P11 variants under saline conditions, suggesting that the P0 variant is the most salt tolerant. Unexpectedly, McNHX2 expression was repressed in the P11 variant while it was upregulated in the P0 and P9 variants under saline treatments. The McNHX2 gene was sequenced showing 15 introns and 16 exons; polymorphisms were found among the cDNAs sequences from the three natural genetic variants. All these data suggest that differential responses to high salinity involve different mechanisms operating in each variant for counteracting saline stress effects.