Italian weedy rice—A case of de‐domestication?

Weedy rice is a representative of the extensive group of feral weeds that derive from crops, but has returned to the lifestyle of a wild species. These weeds develop either from a hybridization of crops with wild relatives (exoferality), or by mutation of crops to weedy forms (endoferality). Due to the close relation of weed and crop, the methods for weed‐targeted containment are limited to date. A deeper understanding of the development of such weeds might help to design more efficient and sustainable approaches for weed management. Weedy rice poses a serious threat to rice yields worldwide. It is widely accepted that weedy rice has originated independently in different regions all over the world. However, details of its evolution have remained elusive. In the current study, we investigated the history of weedy rice in northern Italy, the most important rice‐growing area in Europe. Our approach was to analyze genes related to weedy traits (SD1, sh4, Rc) in weedy rice accessions compared to cultivars, and to integrate these results with phenotypic and physiological data, as well as historical information about rice farming in Italy. We arrive at a working model for the timeline of evolution of weedy rice in Italy indicating that both exoferality and endoferality acted as forces driving the development of the diverse weedy rice populations found in the region today. Models of weed evolution can help to predict the direction which weed development might take and to develop new, sustainable methods to control feral weeds.     

Genetic diversity and origin of weedy rice (Oryza sativa f. spontanea) populations found in North-eastern China revealed by simple sequence repeat (SSR) markers

BACKGROUND AND AIMS: Weedy rice (Oryza sativa f. spontanea) is one of the most notorious weeds occurring in rice-planting areas worldwide. The objectives of this study are to determine the genetic diversity and differentiation of weedy rice populations from Liaoning Province in North-eastern China and to explore the possible origin of these weedy populations by comparing their genetic relationships with rice varieties (O. sativa) and wild rice (O. rufipogon) from different sources. METHODS: Simple sequence repeat (SSR) markers were used to estimate the genetic diversity of 30 weedy rice populations from Liaoning, each containing about 30 individuals, selected rice varieties and wild O. rufipogon. Genetic differentiation and the relationships of weedy rice populations were analysed using cluster analysis (UPGMA) and principle component analysis (PCA). KEY RESULTS: The overall genetic diversity of weedy rice populations from Liaoning was relatively high (H(e) = 0.313, I = 0.572), with about 35 % of the genetic variation found among regions. The Liaoning weedy rice populations were closely related to rice varieties from Liaoning and japonica varieties from other regions but distantly related to indica rice varieties and wild O. rufipogon. CONCLUSIONS: Weedy rice populations from Liaoning are considerably variable genetically and most probably originated from Liaoning rice varieties by mutation and intervarietal hybrids. Recent changes in farming practices and cultivation methods along with less weed management may have promoted the re-emergence and divergence of weedy rice in North-eastern China.     

蓝丁香及其混淆种的澄清

检查了模式标本之后,认为小叶蓝丁香(变种)Syringa meyeri var．spontanea的叶片较小,近圆形,具掌状五出脉;小枝圆柱形,具较密的毛。与蓝丁香(原变种)S．meyeri var．meyeri有较大的差异,应提升为种,即山丁香S．spontanea(M．C. Chang)X．K．Qin。     

Notes on Syringa meyeri Schneid. and Its Confused Species

By comparing the type specimens, Syringa spontanea is distinguished from S. meyeri by the small suborbicular lamina palmately 5-veined and the dense pubescence onterete branchlets. Therefore, it is more consistent to recognize S.spontanea as a distinct species.     

广西蔷薇属一新变种及一新记录

<正> 1.南宁蔷薇 新变种 图1 Rosa multiflora Thunb. var, nanningensis Y. Wan et Z. R. Huang, vat. nov. (Sect. Synstylae DC.) A typo differt pedicellis dense villosis, sepalis extus dense pubescentibus et sparse stipitato-glandulosis, stylis hispidis staminibus brevioribus. Guangxi:Nanning,14.May 1988,Y.Wan et Z.R.Huang 88050(Ho-     

Soil burial induced dormancy in weedy rice seeds through hormone level changes: Implications in adaptive evolution and weed control

Seed dormancy plays a key role in preventing seeds of higher plants from random germination under adverse environmental conditions. Previous studies suggested that a critical temperature could regulate germination of weedy rice seeds without primary dormancy at seed dispersion. However, what will happen to the non-dormant seeds after shattering in the soil seed banks when temperature fluctuates to exceed the critical temperature remains an interesting question to be investigated. To determine whether or not soil burial can change the status of dormancy in weedy rice seeds, we examined germination ratios of weedy rice seeds after soil-burial treatments. In addition, we compared hormone levels in the untreated seeds and viable but ungerminated seeds after soil burial. Results showed that soil burial induced a proportion of 41%–72% dormant seeds in the initially non-dormant weedy rice seeds. Also, the induction of seed dormancy is associated with the change of hormone levels in the seeds treated by soil burial, suggesting that soil burial can significantly activate the control of hormone production in seeds. Together, the previously reported mechanism of critical temperature-inhibited seed germination and the newly found phenomenon of soil burial-induced seed dormancy provide a “double-security” strategy to ensure germination of weedy rice seeds under a favorable condition in agricultural ecosystems. The findings not only reveal the important role of rapid evolution of adaptive functions in weeds, such as weedy rice, in adapting to changing agricultural environments, but also facilitate the design of strategies for effective weedy rice control practices.     

珍稀濒危植物矮牡丹体内矿质元素的研究

采用原子吸收分光光度法测定了矮牡丹体内的10种矿质元素,即K、Mg、Mn、Fe、Ni、Zn、Cu、Cd、Cr、Pb。分析了矿质元素在矮牡丹体内的分布规律及矮牡丹对各种元素的富集能力。结果表明:在不同器官中的矿质元素含量有显著差异, K、Mg、Mn、Ni、Cd、Cr、Pb以叶中为高, Fe、Zn、Cu分别以根、茎、叶柄中含量最高;大多数元素在叶柄中含量最低。矮牡丹对K、Mg、Mn、Fe、Zn有较强的吸收富集能力,一般叶的富集系数较其它器官为高。元素间相关分析表明:Zn、Cd、Cr、Pb、Mn、Fe、Ni、Cu之间有显著的相关性, K、Mg之间的相关性显著。此外,土壤与植物体内元素含量表现出显著的相关性。     

Enhanced genetic diversity of weedy rice populations associated with latitude decreases revealed by simple sequence repeat fingerprints

Weedy rice (WR, Oryza sativa L. f. spontanea) is a noxious agricultural weed, infesting rice fields worldwide and causing tremendous yield losses of cultivated rice. However, little is known about the relationship between genetic diversity and distribution of WR populations across a wide latitudinal gradient, in addition to its reasons for genetic differentiation. To determine the distribution of genetic diversity and differentiation, we analyzed 20 WR populations collected from wide geographic ranges of rice-planting regions across Northeast, Jiangsu and Guangdong provinces of China, and Sri Lanka, based on 20 simple sequence repeat loci. Our results indicated a significant negative correlation (R = 0.84, P < 0.01) between genetic diversity and latitudinal locations of WR populations. The Mantel test (R² = 0.49, P < 0.01) showed distinct groupings of WR populations from different rice-planting regions, fitting an isolation-by-distance pattern. In addition, the STRUCTURE analysis and principal coordinates (PCoA) analysis indicated considerable genetic differentiation of WR from different rice-planting regions, which was associated with the types of co-occurring rice cultivars. We conclude based on the above results that WR genetic diversity is affected by the latitudes where WR populations are located. The genetic differentiation of WR populations is determined by their spatial distances and co-occurring rice cultivars. Such a pattern of genetic diversity and differentiation across different regions may facilitate the design of effective WR control, in addition to understanding adaptive evolution of this weed.     

Origins of weedy rice revealed by polymorphisms of chloroplast DNA sequences and nuclear microsatellites

Conspecific weeds that permanently infest worldwide agroecosystems are evolved from their crop species. These weeds cause substantial problems for crop production by competing for resources in agricultural fields. Weedy rice represents such a conspecific weed infesting rice ecosystems, and causing tremendous rice yield losses owing to its strong competitiveness and abundant genetic diversity, likely resulted from its complex origins. Here, we report the use of chloroplast DNA (cpDNA) fingerprints to determine whether weedy rice is evolved from its wild (exo‐feral) or cultivated (endo‐feral) rice progenitor as the maternal donor in recent hybridization events. In addition, we also applied nuclear simple sequence repeat (SSR) markers to confirm the exo‐feral or endo‐feral origins of weedy rice accessions determined by the cpDNA fingerprints. We found that the studied weedy rice accessions evolved either from their wild or cultivated rice progenitor, as the maternal donor, based on the cpDNA network and structure analyses. Combined analyses of cpDNA and nuclear SSR markers indicated that a much greater proportion of weedy rice accessions had the endo‐feral origin. In addition, results from the genetic structure of nuclear SSR markers indicated that weedy rice accessions from the endo‐feral pathway are distinctly associated with either indica or japonica rice cultivars, suggesting their complex origins through crop–weed introgression. The complex pathways of origin and evolution could greatly promote genetic diversity of weedy rice. Therefore, innovative methods should be developed for effective weedy rice control.     

Performance of Hybrids between Weedy Rice and Insect-resistant Transgenic Rice under Field Experiments： Implication for Environmental Biosafety Assessment

Transgene escape from genetically modified (GM) rice Into weedy rice via gene flow may cause undesired environmental consequences. Estimating the field performance of crop-weed hybrids will facilitate our understanding of potential introgression of crop genes (including transgenes) into weedy rice populations, allowing for effective biosafety assessment. Comparative studies of three weedy rice strains and their hybrids with two GM rice lines containing different insect-resistance transgenes (CpTl or BtlCpTI) indicated an enhanced relative performance of the crop-weed hybrids, with taller plants, more tillers, panicles, and spikelets per plant, as well as higher 1000-seed weight, compared with the weedy rice parents, although the hybrids produced less filled seeds per plant than their weedy parents. Seeds from the F1 hybrids had higher germination rates and produced more seedlings than the weedy parents, which correlated positively with 1000-seed weight. The crop-weed hybrids demonstrated a generally enhanced relative performance than their weedy rice parents in our field experiments. These findings indicate that transgenes from GM rice can persist to and introgress into weedy rice populations through recurrent crop-to-weed gene flow with the aid of slightly increased relative fitness in F1 hybrids.