Jin-Ming Chen

Trade-offs between sexual and asexual reproduction in a monoecious species Sagittaria pygmaea (Alismataceae): the effect of different nutrient levels

Available resources could influence the trade-offs among different reproductive components in plants. Here, we created three nutrient levels to test the nutrient effects on trade-offs among sexual reproduction, clonal propagation and vegetative growth in a monoecious clonal herb Sagittaria pygmaea. The results of this study showed that the plant exhibited different trade-off patterns among different nutrient levels. When the nutrient level was low, there were weak trade-offs between sexual reproduction and vegetative growth and between clonal propagation and vegetative growth; when the nutrient level was moderate, we found a strong trade-off between sexual reproduction and clonal propagation; but when the nutrient level was high, we found no trade-offs among these three different reproductive components. These results indicated that the plant could adjust its trade-off patterns to fit the nutrient variation and suggested that trade-offs are unlikely to constrain the evolution of reproductive strategy in this species.

Genetic variation among wild and cultivated populations of the Chinese medicinal plant Coptis chinensis (Ranunculaceae)

To examine if the cultivation process has reduced the genetic variation of modern cultivars of the traditional Chinese medicinal plant, Coptis chinensis, the levels and distribution of genetic variation was investigated using ISSR markers. A total of 214 C. chinensis individuals from seven wild and three cultivated populations were included in the study. Seven ISSR primers were used and a total of 91 DNA fragments were scored. The levels of genetic diversity in cultivated populations were similar as those in wild populations (mean PPL = 65.2% versus PPL = 52.4%, mean H = 0.159 versus H = 0.153 and mean I = 0.255 versus I = 0.237), suggesting that cultivation did not seriously influence genetic variation of present-day cultivated populations. Neighbour-joining cluster analysis showed that wild populations and cultivated populations were not separated into two groups. The coefficient of genetic differentiation between a cultivar and its wild progenitor was 0.066 (G(st)), which was in good accordance with the result by amova analysis (10.9% of total genetic variation resided on the two groups), indicating that cultivated populations were not genetically differentiated from wild progenitors. For the seven wild populations, a significant genetic differentiation among populations was found using amova analysis (45.9% of total genetic variation resided among populations). A number of causes, including genetic drift and inbreeding in the small and isolated wild populations, the relative limited gene flow between wild populations (N(m) = 0.590), and high gene flow between cultivars and their wild progenitors (N(m) = 7.116), might have led to the observed genetic profiles of C. chinensis.

Phylogeography of a marsh herb Sagittaria trifolia (Alismataceae) in China inferred from cpDNA atpB-rbcL intergenic spacers.

Sagittaria trifolia L. is a perennial, erect herb that is confined to ponds, rice fields, ditches, and freshwater wetlands. Using chloroplast DNA (cpDNA) atpB-rbcL intergenic spacer sequences, we studied the phylogeographic pattern and demographic history of S. trifolia with 108 samples from 42 populations representing the entire geographic range in China. Twenty-seven haplotypes were characterized and two of them were widely distributed in the populations. In the minimum-spanning network, all tip haplotypes were unique to a particular population, while the interior nodes represented widespread haplotypes. Nested clade analysis (NCA) of cpDNA haplotypes indicated that long distance dispersal characterized the post-glacial recolonization of S. trifolia in China. No specific refugia areas were suggested because genetic differentiation was low among the sampled regions and among populations within regions although a large number of the haplotypes were unique to a single population. The present data support that the unique haplotypes in individual population most likely represent recent mutational derivatives after long distance dispersal rather than the relics in refugia. These results for S. trifolia represent the first phylogeographic analysis of a widespread marsh herb in China and support the importance of long distance dispersal events in the post-glacial migrations of plants.

Evolution of aquatic life-forms in Alismatidae: Phylogenetic estimation from chloroplast rbcL gene sequence data

The molecular phylogeny of Alismatidae based on analysis of chloroplast rbcL gene sequence data serves as a framework within which to evaluate the evolutionary advancement of aquatic life-forms in this group. Forty-five genera representing all currently recognized families in the subclass are included in our study. The present analysis indicates that the submersed, floating-leaved, and free-floating life-forms are all polyphyletic within the subclass Alismatidae. Three independent origins of the submersed life-form in Alismatidae with one reversal to emergent life-form are explored in this study. Two separate origins of the free-floating life-form and three separate origins of the floating-leaved life-form in the subclass are also suggested. It is possible for the free-floating life-form to have been derived directly from the submersed life-form and it could also be that the free-floating life-form has been derived from the emergent one. The emergent life-form is considered as progenitorial in the Alismat...

Gender modification in a monoecious species Sagittaria potamogetifolia (Alismataceae)

In order to find out if the inflorescences number variation has influences on the gender modification in plant species, we investigated the gender modification in a cultivated population of the monoecious species Sagittariapotamogetifolia. We also designed two nutrient levels to explore the impact of nutrient on gender modification in S. potamogetifolia. We found that the female and male flowers did not change with increasing plant size for each inflorescence at a low nutrient level. At a high nutrient level, the female flower numbers on each inflorescence did not increase with plant size; however, the male flower numbers had some positive correlation with the plant size. At the ramet level, the total male and female flower numbers increased with the plant size at both nutrient levels. The sex ratio (female to male flower ratio) decreased with the inflorescence numbers and the plant size (Midvein length). Although the nutrient variation had impact on the flower number production, it did not change the gender modification pattern. The high plasticity of inflorescence numbers, which caused the gender variation in S. potamogetifolia, and low plasticity of female and male flowers on a single inflorescence, indicates that the limited modification on gender in a single inflorescence may be compensated by inflorescence number variation at the ramet level.

Quantitative Estimates of Outcrossing Rates in a Natural Population of Caldesia grandis (Alismataceae)

Outcrossing rate in a natural population of Caldesia grandis was estimated by the dominant random amplified polymorphism DNA (RAPD) marker using 10 open-pollinated progeny arrays of 24 individuals. The multilocus outcrossing rate estimated based on all 25 RAPD loci was 0.872 ± 0.033 and the single-locus outcrossing rate was 0.795 ± 0.032. Multilocus estimates did not differ significantly from the single-locus estimates. The fixation index, F, in the progeny estimated from RAPD data was −0.142 ±0.000. The estimates of multilocus outcrossing rates (tm) and single-locus outcrossing rates (ts) obtained from MLDT clearly indicate that outcrossing is predominant in the open-pollinated C. grandis population. An empirical analysis suggests that 15 should be the minimum number of dominant marker loci necessary to achieve robust estimates of tm.