Studies on Taxonomy and Evolution of Citrus and Its Related Genera by Isozyme Analysis

The leaf or bark tissue extracts of 108 biotypes of Citrus and its five related genera were analyzed by polyacrylamide gel electrophoresis for isozymes of peroxidase, glutamate oxaloacetate transaminase, phosphoglucose isomerase, phosphoglucose mutase, superoxide dismutase, tetrazolium oxidase, NADP+- dependent malate dehydrogenase and esterase. The inter-or intra-generic differences of isozymograms were compared. Dissimilarities of the isozyme patterns among the samples were calculated by computer based on the UPGMA method to demonstrate the phylogenetic relationship of the biotypes. There are remarkable isozymogramatic differences among the six genera. Generally speaking, each genus possesses its own unique bands. Based on the cluster analysis, the total Citrus biotypes are classified into seven groups, i.e. Honghe papeda, Mauritius papeda, Pummelo, Ichang papeda, Citron, Lemon-lime and Mandarin-orange. Ichang papeda is suggested to be the third subgenus of the genus Citrus. The Fuming trifoliata orange is accepted as a new species of Poncirus-P. polyandra S. Q. Ding. It might be the evolutionary bridge between Poncirus and Citrus, and one of the “missing links” as suggested by W. T. Swingle. Microacrumen (small- fruited mandarin) is the primitive form of the mandarins. It seems better to consid er“ Horse-nose mandarin ”or “Xipigoushigan mandarin” as the typic mandarin originated in China. Euacrumen (large-fruited mandarin) might have arised through two ways. One is hybridization of Microacrumen and C. sinensis, and the other is just the variation of Microacrumen. Ancestors of some biotypes are inferred based on isozyme data. Fortunella obovata Tan. may be a hybrid of Fortunella and Citrus. C. unshiu Marc. arose from the nucellar mutation of“Huangyanbendiguangju mandarin”( C. nobilis Lour.) in Huangyan of Zhejiang Province. C. junos Sieb. came from hybridization of Ichang papeda and mandarin. C. grandis Osbeck and mandarin may have been involved in the origin of C. aurantium L.. C. limonia Osbeck may be a hybrid between C. medica L. and mandarin. The evolutionary trend of citrus fruit trees is proposed, anda tentative phylogenetic diagram is drawn.     

A Study on Glutamate Oxaloacetate Transaminase Isozymes of Citrus Germplasm Resources

The glutamate oxaloacetate transaminase isozymes (GOT) extracted from 125 biotypes of Citrus and its relatives, Fortunella, Poncirus and Microcitrus were analyzed using polyacrylamide gel electrophoresis to investigate the taxonomic relationships among citrus plants. Besides all the isozymes reported before, two new bands were detected and designated their putative alleles B and C in GOT-l. Among pummelo cultivars wide variations were found. Most of the mandarins were identical, having SS for GOI-1 and MM for GOT-2 except for Zou-Pi-Gan and Yao-Gan, which both had FS at GOT-1 and might be hybrids. This finding suggests that all of the mandarins may have originated from a common ancestor. Sour orange biotypes showed a considerable variation in GOT isozymes. Most of the sour oranges in China were assumed to be hybrids between pummelo and mandarin based on GOT isozyme patterns, but two biotypes, Xiao-Hong-Cheng and Zhu-lan, had FS at GOT-1 and MB at GOT-2, which strongly suggests that they be hybrids of pummelo and Ichang papeda because B allele of GOT-2 occurs only in Ichang papeda and its close relatives Yuzu and Ichang lemon. From this study Yuzu is assumed to be derived from hybridizationof Ichan, papeda and mandarin.     

Numerical Chemotaxonomical Study on Citrus Plants Cultivated in China

Soluble proteins were extracted from mature leaves of 83 citrus biotypes. Their protein patterns were obtained by acrylamide gel electrophoresis. The similarity of the protein patterns among the samples was calculated by computer according to the principle and methods of numerical taxonomy. The similarity comparison was made between different species and varieties included in the Swingl’s system. The distance coefficients of similarity (DCS) is 2.13 between species in the genus Citrus, 0.927 in Poncirus and 0.617 among Fortunella species. The DCS of biotypes in Citrus limon, C. paradisi and C. sinensis are zero, and those in C. grandis and C. reticulata are 0.656 and 0.863 respectively. There is no difference among satsuma mandarin, Tankan and King mandarin, which are considered respectively as a good species in Tanaka’s system. Ancestors of some biotypes. whose origin was unknown berore, are postulated in this work. Jiang Bai Shang Cheng is probably a hybrid between C. junos Tanaka and mandarin, rough lemon may be a hybrid of mandarin with citron or lime, but not with lemon. Some so-called lemon biotypes are not in the same cluster as true lemon (Eureka or Lishon). The biotypes. of sour orange, all of which are scattered in the phenetic tree of cluster analysis (PTCA), might have been derived from different ancestors. In the PTCA the evolutionary tendency from Poncirus to Macroacrumen in the citrus plants may be found on the basis of the DCS of different genera, sections and subsections respectively with the subsection Macroacrumen. The present author considers that if Fortunella is recognized as true genus, Cephalocitrus should also be an acceptable genus. The position of Fortunella in the PTCA is between the sections Cephalocitrus and Aurantium, but it does not represent its position in the phylogeny. Taking comprehensive data into consideration it appear to be more reasonable to place C. ichangensis, as member of Papeda originated in the subtropics, in the section Papeda.     

提高柑桔茎尖微型嫁接成苗率研究

砧木枳壳、酸桔、福桔、酸橙,柠檬在不同天龄与接穗“红江橙”进行嫁接试验。结果表明,他们最适于嫁接的时问分别为14、16、23—25、16、19天;接穗为三叶原基时,相应最高成苗率为75.0％、76.5％、50.0％、57.1％、66.7％。接穗是四叶原基时,成苗率可达100％。还试验了一些技术措施如嫁接技术、方式,接穗、砧木管理等与嫁接成苗率的关系。嫁接试管苗经自来水浸泡一天,100 ppm萘乙酸处理一小时,移植于新土:珍珠岩(7:3)的混合土中.在适宜的温度下,成活率达80～90％以上。     

用SSR标记研究柑橘属及其近缘属植物的亲缘关系

用SSR标记分析了29份柑橘属及近缘属植物的亲缘关系。7对SSR引物在29个样品中扩增得到114个等位基因,平均每个位点有16.3个等位基因。计算匹配系数后用邻接法进行聚类,结果表明,澳洲指橘与柑橘属的亲缘关系很近;SSR位点的高纯合频率支持富民枳种的地位;枳与柑橘属的关系较远,枳不大可能是从柑橘属衍生而来;Swingle的亚属的划分以及田中的原生柑橘类和后生柑橘类的划分界线不清晰;现代栽培柑橘的起源与大翼橙关系密切;柑橘属的枸橼、柚和宽皮橘都很好地分离,支持其为现代栽培柑橘的3个基本种的观点。     

无量山种子植物的区系平衡点

在较为完善的分类学处理后所得的包含207科,1026属,2540种植物的名录基础上,本文初步报道了地处滇中南的无量山的种子植物区系组成的初步结果,并在山体各海拔段进行了属的分布区类型每一类分布的详尽统计,得出了热带和温带两大基本成分在无量山达到平衡（各占50％）海拔点,称之为区系平衡点。该点从历史角度看可以反映无量山种子植物区系成分随自然历史变迁所发生的演变,从现实看表明了该地植物区系的过渡性质,同时,寓意着我国亚热带地区客观存在着一条区系平衡线,并且,该点还是热带成分的一个重要性限制点;另一方面可以作为植物引种和选择引种驯化锻炼基地的一个参考指标。     

柑橘体细胞杂种有性后代的创造及杂种鉴定

110 plantlets were obtained from the cross between citrus allotetraploid somatic hybrid [Hamlin sweet orange (Citrus sinensis Osback) + Rough Lemon (C. jambhiri Luss)] (as the pollen parent) and mono-embryonic diploid type Iben No.4 [Huanongbendizao tangerine (C. reticulata Blanco) x Ichang papeda (C. ichangensis Swingle)] by the means of young embryo culture in vitro, and there were 93 triploids and 17 diploids through chromosome counting and the ploidy analyser identification. RAPD analyses showed that all sexual progenies were hybrid.     

Characterization of microsatellite markers in mandarin orange (Citrus reticulata Blanco)

A dinucleotide-enriched genomic library was obtained from mandarin orange (Citrus reticulata Blanco). A subset of 101 positive clones was sequenced and primers were designed. The loci were screened for levels of variation using 26-29 wild mandarin oranges collected in Vietnam. Forty-three loci were polymorphic with the number of alleles ranging from two to 18. The observed heterozygosity (H(O) ) and expected heterozygosity (H(E) ) were from 0.03 to 0.96 and from 0.03 to 0.92, respectively.     

柑桔类的细胞分类学研究 Ⅰ.柑桔属30个分类群的核型及进化

作者研究了柑桔属30个分类群的核型及进化。结果表明:染色体数目为2n=2x=18,属小染色体植物,核型由中部着丝粒染色体(m)和近中部着丝粒染色体(sm)组成,具2—4个连接于短臂上的随体,一些分类群的部分同源染色体上存在长度和臂比值不同程度的杂合现象,核型均属2A型。比较随体及与之相连短臂,其随体分为大随体(LS)中随体(MS)和小随体(SS)三类,随体的多样性可作为探讨该属物种的起源、系统演化的一个遗传标志。作者赞同把柚(Citrus grandis)作为柑桔属的一个基本种,而宽皮柑桔(C.reticulata)核型变异较大,还待进一步分析;推测红黎檬(C.limonia)、葡萄柚(C.paradisi)、甜橙(C.sinensis)、酸橙(C.aurantium)、香园(C.wilsonii)、三宝柑(C.sulcata)、部分宽皮柑桔(C.reticulata)为杂种起源。该属核型由不对称向对称进化是与形态及孢粉的进化趋势一致的。     

Chromosomal markers distinguish hybrids and non-hybrid accessions of mandarin

Mandarin is the common name of a heterogeneous group of Citrus species with a large range of variation in morphological and molecular characters as well as in number of species. Aiming to identify chromosome markers and to clarify the relationship within this group, the karyotype of 13 mandarin accessions were analyzed using CMA/DAPI staining and in situ hybridization with 5S and 45S rDNA probes. The CMA band pattern together with the position of rDNA sites revealed that mandarins can be separated karyologically into three groups: a) C. sunki and C. reshni; b) the Mediterranean mandarin, C. deliciosa, and the closely related C. tangerina cv. Dancy and C. reticulata cv. Cravo; c) the remaining cultivars, which are cytologically heterozygous and most probably interspecific hybrids. The former two groups are assumed to be pure species together with C. medica and C. grandis. A chromosome marker for mandarin species was identified and the relationship among the pure species and some hybrids is discussed.     

部分柑桔属及其近缘属Giemsa C-带带型研究

本文应用Giemsa显带技术研究了枳属(Poncirus)、金柑属(Fortunella)和柑桔属(Citrus)16个分类群的染色体。枳属以末端带和着丝点带为主,金柑属与柑桔属主要以末端带为主;统计分析了各分类群每对染色体及全组染色体的异染色质含量,并列出其带型公式;探讨了金柑属的分类学地位;赞同把柚(C.grandis)作为柑桔属的基本种之一;根据异染色质含量的变化对柑桔属的带型演化进行了讨论。     

The introduction of cultivated citrus to Europe via Northern Africa and the Iberian Peninsula

The circumstances concerning the diffusion of the main cultivated citrus from their places of origin in Asia are studied here, showing that the citron (’Citrus medica L.) was the only one knew in Ancient times in Europe, while the lemon (C. limon [L.] Osbeck), lime (C. aurantiifolia [Christm.] Swingle), pomelo (C. maxima [Burm.] Merr.) and sour orange (C. x aurantium L.) were introduced to Europe by the Muslims via the Iberian Peninsula and Sicily, and that the grapefruit (C. paradisi Macfad.), mandarin (C. reticulata Blanco) and sweet orange (C. x aurantium L.) arrived to the West between the fifteenth and nineteenth centuries as a result of the trade with the British and Portuguese colonies.     

Isoflavonoids in the Rutaceae family: 1. Fortunella obovata, Murraya paniculata and four Citrus species

Several types of compounds with immunoreactivity similar to isoflavonoids were detected in water: ethanol extracts of leaves of Fortunella obovata Hort. ex Tanaka, Murraya paniculata Jack. and four Citrus species, namely C. aurantium L, C. grandis Osbeck, C. limonia Osbeck., and C. sinensis Osbeck (Rutaceae). The chromatographic mobilities of the immunoreactive substances were compared with those of authentic standards, revealing a spectrum of isoflavonoid metabolites in all plants studied. Aglycones as well as glycosides were recognized, namely daidzin, genistin, daidzein, genistein, formononetin, biochanin A, prunetin, and several incompletely characterized isoflavonoids. A subsequent HPLC-MS study verified the identities of the main immunoreactive isoflavonoids and established the identities of several others, viz. glycitein, glycitin, ononin and sissotrin, including the malonylated and acetylated isoflavonoid glucosides. The estimated content of the individual immunoreactive entities ranged from a few microg to about 2 mg/kg (dry weight). It is concluded that the isoflavonoid metabolic pathway is present throughout the Rutaceae family.     

杂交柑桔的胚胎发育(英文)

柑桔类珠心胚现象对研究其进化和种质保存方面有着重要意义,但是给其有性杂交育种工作造成相当大的麻烦：它不仅使杂交后代难于区分合子苗和珠心苗,而且会使合子胚发育中途天折。解决的途径是适时分离合子胚进行单独培养。为此,本工作于柑桔胚胎发育的不同时期取样、固定、观察,研究其合子胚发育规律,确定珠心胚侵入胚囊的时期。结果表明：一般情况下,授粉后３０ｄ,合于处于单细胞状态（Ｆｉｇ．１Ａ）;授粉后４０ｄ;合子开始分裂（Ｆｉｇ．１Ｂ）;授粉后４５ｄ,合子胚形成８－１６个细胞,珠心胚开始分裂（Ｆｉｇ．１Ｃ）;授粉后５０ｄ,合子形成球形胚,珠心胚尚未侵入胚囊（Ｆｉｇ．１Ｄ＆Ｅ）;授粉后５５ｄ,合子胚为球形胚或早心形胚,开始有少数珠心胚侵入胚囊（Ｆｉｇ．１Ｄ＆Ｅ）;授粉后６０ｄ,合子胚为心形胚（Ｆｉｇ．１Ｇ）。授粉后８０ｄ,合子胚为晚心形,珠心胚巨大量侵入并迅速发育（Ｆｉｇ．１Ｈ）。杂交的组合对合子,胚珠及果实发育均有一定影响,主要取决于杂交亲本。与种间杂交相比,属间杂交其合子分裂较迟,合子胚发育较慢,珠心胚侵入时期也较迟（Ｔａｂｌｅｌ,Ｆｉｇ．２）。这种发育速度的差异,引起所产生的合子胚的大小（Ｔａｂｌｅ２）珠心胚侵率（Ｔａｂ     

Somatic hybridization for citrus rootstock breeding: an effective tool to solve some important issues of the Mediterranean citrus industry

The prevalence of sour orange rootstock in the southern and eastern part of the Mediterranean Basin is presently threatened by the spread of Citrus Tristeza Virus (CTV) and its main vector Toxoptera citricida, combined with abiotic constraints such as drought, salinity and alkalinity. The search for alternative CTV-resistant rootstocks that also withstand the other constraints is now considered an urgent priority for a sustainable citrus industry in the area. Complementary progenitors can be found in citrus germplasm to combine the desired traits, particularly between Poncirus and Citrus genera. The production of somatic hybrids allows cumulating all dominant traits irrespective of their heterozygosity level, and would appear to be an effective way to solve the rootstock challenge facing the Mediterranean citrus industry. This paper presents the results obtained during a regional collaborative effort between five countries, to develop new rootstocks by somatic hybridization. New embryogenic callus lines to be used for somatic hybridization have been created. Protoplast fusions have been performed at CIRAD and IVIA laboratories, focusing on intergeneric combinations. Analysis of ploidy level by flow cytometry and molecular markers confirmed the acquisition of new interesting tetraploid somatic hybrids for six combinations. Diploid cybrids with intergeneric (Citrus?×?Poncirus) nucleus and C. reticulata or C. aurantifolia mitochondria were also identified for four combinations. The agronomical performance of a pre-existing somatic hybrid between Poncirus trifoliata and Citrus reticulata was validated in calcareous soils in Morocco. Somatic hybridization is now integrated into the breeding programs of the five Mediterranean countries.     

Study on Peroxidase Isozymes in Citrus and Fortunella

The acidic peroxidase isozymes in petals of 106 Citrus and Fortunella species and cultivars were studied using polyacrylamide gel electrophoresis. The results (Fig. 1; Tables 1 and 2) suggest that these isozymes be of the monomeric nature coded by a single locus. Five alleles were identified and designated as A, B, C, D and F respectively. No genetic difference in peroxidase isozymes was detected among the mandarins orignated from China, Japan and Indian. Man Ju may be a hybrid between Ponkan and Ougan. Ponkan may have not been involved in the origin of Jiao Gan. Zheng Jiang Jin Ju should be an infraspecific hybrid of C. reticulata. C. sinensis has a close relationship with some Chinese mandarins. Changshou Kumquat and Calamondin are shown to be intergeneric hybrids between Citrus andFortunella.     

Genetic relationships between some Tunisian Citrus species based on their leaf volatile oil constituents

Volatile oil constituents of Tunisian sweet orange (Citrus sinensis Osbeck) cv. Meski (MES), Valencia Late (VAL), Thomson Navel (THN) and Maltaise Blanc (MAB); mandarin (Citrus reticulata Blanco); sour orange (Citrus aurantium L. cv. Amara (AM)) and pummelo (Citrus grandis Osbeck) were obtained by hydrodistillation and analysed by gas chromatography (GC) combined with a flame ionisation detector (FID) and mass spectrometry (MS). A total of 41 components accounting for more than 95% of the total essential oils were identified, and oxygenated monoterpenes (69.5–99.9%) were found as the most prominent fraction in all oil samples. The main constituents were linalool (3.1–73%), isoborneol (0–55.8%) and tepinen-4-ol (1.1–19.2%). A high degree of inter-and intraspecific chemical variability between species and cultivars was found to be genetically determined, and a set of distinctive traits (chemical markers) in the essential oils profile was established. Principal component analysis (PCA) and hierarchical cluster analysis (HCA) of all identified components grouped the oils into two main chemotypes (linalool/isoborneol and isoborneol/linalool).     

红桔基砧/锦橙中间砧/纽荷尔脐橙晚实原因探讨

通过连续两年田间试验,比较纽荷尔脐橙高接在两个不同基砧/中间砧组合上的产量表现,并探讨其原因。结果表明,红桔/锦橙组合投产显著地晚于枳/国庆一号温州蜜柑组合(对照);其晚实原因在于:红桔/锦橙组合比对照枝条加长生长旺、加粗生长弱、枝条较直立,树冠郁闭;红桔/锦橙组合树体光合能力受抑制;红桔/锦橙组合叶片可溶性糖含量低于对照,而淀粉含量高于对照;红桔/锦橙组合叶片N、P含量比对照低,Ca含量、C/N水平比对照高。     

Growth and root hydraulic conductivity of several citrus rootstocks under salt and polyethylene glycol stresses

The water relations responses to salt of several important citrus rootstocks such as Swingle citrumelo, sour orange, and Milam lemon have not been studied in detail before. Studies were set up to compare growth and root hydraulic properties of these rootstocks to other citrus rootstocks by exposing them to NaCl and polyethylene glycol (PEG) stresses. Seedlings of 7 citrus rootstocks were irrigated for 5 months with nutrient solutions containing NaCl or PEG that had been adjusted to osmotic potentials of -0.10, -0.20 or -0.35 MPa. The 7 rootstocks studied were sour orange (Citrus aurantium), Cleopatra mandarin (Citrus reticulata Blanco), Swingle citrumelo (C. paradisi x P. trifoliata), Carrizo citrange (C. sinensis x P. trifoliata), rough lemon (Citrus jambhiri Lush), Milam lemon (C. jambhiri hybrid), and trifoliate orange (Poncirus trifoliata [L.] Raf.). In both shoot and root growth, Cleopatra mandarin and sour orange were the least sensitive to salt, Milam and trifoliate orange were the most sensitive, and rough lemon, Swingle, and Carrizo were intermediate in sensitivity. Even though the roots were exposed to solutions of equal osmotic potentials, plant growth and root conductivity were reduced more by the PEG treatments than the corresponding NaCl treatments. At -0.10 and -0.20 MPa, shoot and root dry weights were reduced 16 to 55% by NaCl and 24 to 68% by PEG. Shoot root ratio was lowered at the higher concentrations, particularly by PEG. There was a major decrease in root conductivity caused by NaCl at -0.10 MPa (19 to 30% in sour orange and Cleopatra mandarin and 78 to 85% in trifoliate orange and Milam). Conductivity decreased more at -0.20 and -0.35 MPa, but not proportionally as much as at -0.10 MPa. Root weight per unit length increased at the higher salt levels, particularly in trifoliate orange. Water flow rate through root systems followed the same trend as root conductivity; salt affected sour orange and Cleopatra mandarin the least and trifoliate orange and Milam the most. However, reductions in fibrous root length by salt treatment differed. Root lengths of Swingle and Carrizo were least affected by salt while sour orange. Milam, and rough lemon were the most affected. Hence, even though sour orange and Cleopatra mandarin were more tolerant than the other rootstocks in terms of water flow rate or root conductivity, these 2 rootstocks showed a proportionally greater decrease in root length than Carrizo, Swingle, or trifoliate orange.     

Biology of Diaphorina citri (Hem., Psyllidae) on different hosts and at different temperatures

Abstract:  The objective of this work was to study the effect of different hosts and temperatures on Diaphorina citri Kuwayama (Hem., Psyllidae) biology. Citrus limonia (Rangpur lime), Murraya paniculata (orange jessamine) and Citrus sunki (Sunki mandarin) were used as hosts. Measurements included duration and viability of the egg and nymphal stages, sex ratio, fecundity and longevity. In order to verify the effect of temperature on D. citri biology, the duration and viability of its developmental stages and biological cycle were compared at seven different temperature conditions. Durations of the embryonic and nymphal stages were similar for Rangpur lime, orange jessamine and mandarin. However, the nymphal viability obtained on mandarin was lower than the values obtained on the other hosts. Fecundity was higher on orange jessamine and, in all instances, females had greater longevity than males. A fixed number of instars (five) was obtained on the three hosts. Rangpur lime and orange jessamine provided better D. citri development when compared with mandarin. Duration of the egg and nymphal stages varied from 2.6 to 7.7 and from 9.4 to 35.8 days, respectively, at temperatures from 18 to 32°C. Egg viability was higher than 81.6% at the temperature range studied (18–32°C); nymphal viability was higher than 70% at the 18–30°C range, differing from viability at 32°C, which was dramatically reduced. The D. citri lower temperature development threshold (TT) and thermal constant ( K ) values for the egg, nymphal and biological cycle (egg–adult) stages were 12.0°C and 52.6 Degree-Day (DD); 13.9°C and 156.9 DD; and 13.5°C and 210.9 DD respectively.