摘要
【目的】富民枳和华中枳具有较强的抗寒能力,是潜在的优良柑橘砧木资源。研究这两个物种的分类地位,以期为它们的保护和利用提供理论依据。【方法】考虑到杂交以及不完全谱系分选的影响,挑选了4个没有明显连锁关系的核基因片段(CTV.4,HYB,LGT,P12),对富民枳、华中枳和宜昌橙进行直接或克隆测序,重建广义柑橘属的系统发育树,进一步探究富民枳和华中枳的分类地位。【结果】4个单基因树的拓扑结构存在不一致性,富民枳和华中枳在CTV.4基因树中表现出杂交起源的特性,揭示了这2种植物可能是枳(♀)与柚(♂)的自然杂交种。【结论】研究为枳属与狭义柑橘属之间在自然状态下存在基因交流提供了新证据,为富民枳和华中枳的物种起源提供了新见解。这2个物种是狭义柑橘属与枳属之间的桥梁,对研究广义柑橘属的系统发育关系和柑橘育种具有重要价值。因此,它们应受到更多的关注和保护,建议将华中枳列为地方保护物种或与富民枳同等级的保护物种。
【Objective】Evergreen trifoliate orange is a special member of Citrus s.l.,with its trifoliolate similar to those of C.trifoliata,yet its evergreen features resembles that of species within Citrus s.s.Currently,two types of evergreen trifoliate orange have been established as independent species,including C.×pubinervia and C.×polytrifolia.Evergreen trifoliate oranges possess strong cold resistance and are excellent citrus rootstock resources.However,their taxonomic status has long been disputed since their discovery,hindering research on their conservation and utilization.【Methods】Considering the impacts of hybridization and incomplete lineage sorting,four n DNA segments(CTV.4,HYB,LGT and P12)that show no significant linkage relationship were selected for direct or cloning sequencing in C.×polytrifolia,C.×pubinervia,and C.cavaleriei to reconstruct the phylogenetic tree of the Citrus s.l.and,further exploring the taxonomic status of these two evergreen trifoliate oranges.【Results】The phylogenetic tree based on HYB gene sequences revealed that C.trifoliata,C.×polytrifolia,and C.×pubinervia formed the first strongly supported independent clade(LP=100%,PP=1.00)within Citrus s.l.,known as the“Poncirus”clade.“Poncirus”clade further diverged into the“deciduous trifoliate orange”clade(LP=76%,PP=0.81)and the“evergreen trifoliate orange”clade(LP=81%,PP=0.76),which included C.×polytrifolia and C.×pubinervia.The HYB gene tree was unable to distinguish between the two evergreen trifoliate oranges.C.cavaleriei appeared in the HYB gene tree within Citrus s.s.,distant from the two species of the evergreen trifoliate oranges.The LGT gene tree showed that C.trifoliata and the two evergreen trifoliate oranges also formed an independent clade within Citrus s.l.(LP=100%,PP=1.00).However,unlike the HYB gene tree,the LGT gene tree cannot differentiate between the C.trifoliata and the evergreen trifoliate oranges.C.cavaleriei remained within Citrus s.s.in the LGT gene tree.There was no significant topological inconsistency of gene trees between the LGT and HYB,but LGT was more conservative and had lower species resolution than HYB.The topology of the P12 gene tree was inconsistent with the previous two.The“Poncirus”clade was embedded within the Citrus s.l.,sharing a large clade with Fortunella,which had low support(LP=0,PP=0.66).The P12gene tree cannot differentiate the three species within the“Poncirus”clade and had limited ability to distinguish other species within Citrus s.l.,presenting an overall"comb-like"structure.The topology of the CTV.4 gene tree was significantly different from the first three,with the two evergreen trifoliate oranges separating from C.trifoliata and clustering with C.maxima and C.×aurantium in a large clade with weak support(LP=52%,PP=0.63).This large clade further diverged into two strongly supported smaller clades,namely the“C.maxima”clade(LP=98%,PP=1.00)and the“evergreen trifoliate orange”clade(LP=97%,PP=1.00),showing clear differentiation between them.The CTV.4 gene tree cannot distinguish C.maxima and C.×aurantium as two separate species,nor can it differentiate C.×pubinervia and C.×polytrifolia as two species.The clone sequencing of C.×pubinervia was supplemented to verify this phenomenon.The results showed that its three clone sequences were located in the“Poncirus”clade,and two clone sequences were together with C.×polytrifolia in the“C.maxima”clade,exhibiting characteristics of hybrid origin.Direct and cloning sequencing of C.cavaleriei formed a strongly supported clade(LP=98%,PP=1.00),adjacent to the“Poncirus”clade and distant from the evergreen trifoliate oranges.【Conclusion】The topological structure between CTV.4 and the other three n DNA single-gene trees showed significant inconsistencies,suggesting that C.×polytrifolia and C.×pubinervia may have experienced hybridization events.In the CTV.4 gene tree,as a hybrid related to C.maxima,C.×aurantium was very closely related to C.maxima.Whereas evergreen trifoliate orange has undergone significant genetic differentiation from the“C.maxima”clade,the fact indicates its origin time must be much earlier than C.×aurantium,and evergreen trifoliate orange has experienced an independent evolutionary process.Earlier cp DNA phylogenetic analysis showed that C.trifoliata,C.×polytrifolia and C.×pubinervia had differentiated at the chloroplast gene level,being three distinguishable species.Therefore,C.×polytrifolia and C.×pubinervia likely originated from natural hybridization between C.trifoliata(♀)and other species of Citrus s.l.(♂),with C.maxima being the most likely maternal species.Since Citrus s.l.has undergone complex reticulate evolution and C.maxima is believed to have participated in the formation of other hybrid species(such as C.×aurantium),so the male parent of evergreen trifoliate orange cannot be determined conclusively through the study on a few gene fragments.Its male parent could be C.maxima or a natural hybrid containing C.maxima lineage.However,this result does not mean that the two evergreen trifoliate oranges are not“good species”in the taxonomic sense,because natural hybridization events are one of the important ways of species formation,especially for many species of Citrus s.l..This study provides strong evidence of gene exchange existing naturally between the Poncirus and the Citrus s.s.,offering new insights into the species origin of C.×pubinervia and C.×polytrifolia.These two species serve as a bridge between the Citrus s.s.and the Poncirus,holding significant value for studying the phylogenetic relationships of the Citrus s.l.and citrus breeding.Therefore,they should receive more attention and protection,suggesting that Citrus×pubinervia be listed as a local protected species or be granted the same level of protection as C.×polytrifolia.
作者
吴玉
陶晓宁
袁河清
易敏
王辉
杨利平
WU Yu;TAO Xiaoning;YUAN Heqing;YI Min;WANG Hui;YANG Liping(Research Center of Nature Reserve Regulatory Policy and Technology of Hunan Province/Department of Environmental Science,Changsha Environmental Protection College,Hunan 410007,Changsha,China;Hunan Ecological Environment Monitoring Center,Hu-nan 410007,Changsha,China)
出处
《果树学报》
CAS
CSCD
北大核心
2024年第10期1979-1989,共11页
Journal of Fruit Science
基金
湖南省生物多样性保护优先区域生物多样性调查观测项目(湖南省生态环境厅)
湖南省生态地面监测工作服务采购项目(湖南省生态环境监测中心ZFCG-2023-050)。
关键词
柑橘属
分类学
自然杂交
保护物种
Citrus
Taxonomy
Natural hybridization
Protecting species
