Satoru Motoki

Effects of Various Asparagus Production Methods on Rutin and Protodioscin Contents in Spears and Cladophylls

The purpose of this study was to clarify the relationship between various cultivation conditions and the amounts of the rutin (RT) and protodioscin (PD) in asparagus spears. Green and white spears were grown in open culture and under two different blanching conditions. Although RT was detected only in the green spears, PD was detected mainly in white spears produced by covering with soil. The RT and PD contents of cladophylls grown in an open field and in a closed cultivation system were also investigated, and the closed system resulted in cladophylls with low RT and high PD, unlike the open field.

Allelochemicals inhibit the growth of subsequently replanted asparagus (Asparagus officinalis L.)

Allelochemicals are a major reason for replanting problem of asparagus. The effects of potential allelochemicals on the growth of asparagus cultivars UC157 and Gijnlim in replant culture were investigated. Their contents were determined by high-performance liquid chromatography, and their phytotoxicity was assessed in agar medium during the replanting time. Organic acids, oxalic, succinic and tartaric, were the main identified allelochemical compounds of the asparagus cultivars. The second replanting produced a higher concentration of total allelochemicals than the first. In general, root and shoot biomasses were inhibited by up to 81% and 68%, respectively, in the second replanting of UC157. The inhibition of lettuce growth by oxalic, succinic and tartaric acids was also investigated using a bioassay. The inhibitory concentration (IC50) and the effects of these allelochemicals indicated that these acids might have an important function in the allelopathic responses of asparagus replanting problem.

Yield estimation of 1-year-old asparagus grown using rootstock-planting forcing culture

ABSTRACT Rootstock-planting forcing culture was developed in asparagus to harvest spears even during the seasons when the plants become dormant, but the demand for them high. In this study, cumulative hours during which the air temperature remained lower than 5°C, i.e. chilling hours (CHs), were calculated to determine dormancy breakage for asparagus cultures. We also measured CIELab colour values for cut stems immediately before rootstock digging, and determined whether they could be substituted and/or compensated for CHs while evaluating asparagus plant productivity in different low-temperature backgrounds, and obtained regression equations for yield estimation. Asparagus seedlings were cultivated in seven different regions across Japan and brought to the study site for harvesting. Our regression equation based on CHs and rootstock weight for yield estimation had relatively high fitness (adjusted R2 = 0.5795). The colour values of cut stalks at rootstock digging can also be used to evaluate their productivity. These values can be useful in regions where CHs cannot be determined, although their effectiveness was slightly lower than that of CHs of areas adjacent to the study sites.

A new DNA marker for sex identification in purple asparagus

Garden asparagus (Asparagus officinalis L.) is an economically-important perennial crop. This plant is dioecious, as there are both male and female individuals; male individuals are preferred over females for agricultural production. To reduce the time required for garden asparagus breeding, various male-specific DNA markers are utilized. Male-specific DNA markers, such as Asp1-T7sp and MSSTS710, are currently available for sex identification in many asparagus cultivars. In the current study, we found that these markers are not suitable for sex identification in the purple asparagus cultivar ‘Pacific Purple’, as male-specific amplification of this marker was detected in some male individuals of this cultivar but not in other males. The Asp1-T7sp marker is suitable for use in sex identification in various Asparagus species related to A. officinalis, indicating that the region around this marker is conserved among these species. Thus, we isolated a DNA fragment around this marker by inverse PCR and produced a new DNA marker, MspHd, based on this sequence. However, like Asp1-T7sp and MSSTS710, MspHd was not suitable for sex identification in the cultivar ‘Pacific Purple’. Since all ‘Pacific Purple’ males have morphologically similar male flowers with functional stamens, we produced a new male-specific marker based on the sex determination gene, MSE1/AspMYB35/AspTDF1, which is responsible for stamen development. This marker, named AspMSD, is suitable for sex identification in ‘Pacific Purple’. In addition, this marker can be utilized for sex identification in various asparagus cultivars and some related Asparagus species.