Changes in photosynthesis,growth, and sugar content of commercial sugarcane cultivars and Erianthus under flood conditions

Sugarcane (Saccharum spp.) is an economical crop in the tropical and subtropical countries. However, because of global climate change, flooding has become problematic, particularly during the rainy season, in Thailand. We investigated the effects of floods on three commercial sugarcane cultivars, namely NiF8, U-thong 6 (UT6), and U-thong 9 (UT9), as well as Erianthus spp. Growth was assessed using a pot experiment in a glasshouse with two treatments: (1) control and (2) 60 d of flooding followed by 30 d of normal conditions. In comparison with control, during prolonged flooding, Erianthus showed greatly decreased CO₂ assimilation, whereas NiF8, UT6, and UT9 showed slightly declined CO₂ assimilation. Growth in plants subjected to 60 d of flooding was less influenced by floods while sucrose content was not affected except in UT6. During flooding, some roots died, resulting in plants compensating adventitious roots to offset the negative effects of root death and to assist them in maintaining their growth, which appeared from the submerged nodes, with different characteristics for each cultivar. However, 30 d after draining, roots remained damaged, while adventitious roots died, resulting in lesser growth as compared with the control, but it did not significantly affect sucrose content and sugar yield. This study suggests that sugarcane plants need to produce the adventitious roots to compensate their roots’ death during flooding and require time to recover their root system after flooding for obtaining the optimum yield and quality at harvest.     

基于主要表型性状的不同采集地斑茅种质资源遗传多样性分析

为提高斑茅种质资源利用效率,本研究对来自不同地区的76份斑茅种质资源的株高、茎径、节间长、叶长、叶宽、锤度6个表型性状进行遗传多样性分析。结果表明,来自不同地区的斑茅,6个表型性状平均变异系数在14.6%~53.4%之间,其中株高和节间长的变异系数相对较高,分别为53.4%和37.7%;锤度和叶长的变异系数相对较低,分别为19.1%和14.6%。株高、茎径、叶宽、叶长、节间长之间表现为极显著正相关,其中株高与节间长的相关系数最大,为0.818;锤度与株高、节间长呈负相关,相关系数分别为-0.232和-0.263。主成分分析表明,前2个主成分方差累计贡献率高达72.58%,其中第1主成分方差贡献率达到51.21%,第2主成分贡献率为21.37%。采用聚类分析方法,不同的种质资源被分为8大类群,第Ⅴ和Ⅵ类群的种质综合性状表现最好,这2个类群是优良的斑茅种质资源,可在甘蔗育种中加以挖掘利用。     

甘蔗与蔗茅杂交亲本及后代材料的抗旱性鉴定

研究旨在筛选出优良抗旱育种材料,为今后甘蔗抗旱育种和抗旱栽培技术提供重要的理论依据。采用盆栽干旱处理,测定蔗茅野生种无性系、甘蔗栽培品种（系）及其杂交后代共12份材料苗期与抗旱相关的8项生理生化指标,利用极点排序法对供试材料的抗旱性进行了综合评价。结果表明：干旱胁迫下,12份供试材料的Pro、MDA、SS及PMP均呈上升趋势,SP、Chl和SOD活性呈下降趋势,CAT活性有升有降。极点排序法分析表明,12个供试材料的抗旱强弱为：‘蔗茅99-2’>‘蔗茅99-1’>‘蔗茅99-4’>‘蔗茅I91-8’>‘蔗茅99-3’>‘蔗茅90-29’>‘滇蔗01-58’>‘滇蔗04-14’>‘滇蔗02-39’>‘蔗茅II91-2’>‘新台糖10’>‘崖城89-9’,说明蔗茅优质抗旱性状可以通过基因渗透方式传递给后代。在苗期干旱胁迫下,‘蔗茅99-2’在渗透调节等方面表现出积极的生理响应。     

3个甘蔗与斑茅远缘杂交后代BC1的染色体遗传分析

对3个甘蔗与斑茅远缘杂交后代BC1进行真实性鉴定及染色体核型分析,以探讨甘蔗与斑茅BC1的染色体传递方式。利用2对鉴定斑茅真实杂交后代的特异引物对3个甘蔗与斑茅BC1进行鉴定,采用根尖分生区细胞去壁低渗涂片法制片,显微拍照计数染色体数目,并进行染色体核型分析。3个BC1材料均为斑茅的真实杂交后代,崖城01-69体细胞染色体核型公式为2n＝121＝120 m+1 sm,其染色体按2n+n方式传递;崖城01-116的体细胞染色体核型公式为2n＝122＝118 m+4 sm,其染色体传递方式为2n+n;崖城01-134的体细胞染色体核型公式为2n＝121＝120 m+1 sm,其染色体传递为2n+n。推断甘蔗与斑茅BC1的染色体以2n+n的方式传递。     

斑茅F1杂交可育亲本选择及其回交后代鉴定和主要经济性状

选用8个Badila(甘蔗热带种)与斑茅属间杂交F1品系与9个甘蔗栽培品种配制了24个回交组合，其中6个F1品系的13个组合杂交可育，共获346株BC1实生苗．经同工酶分析，其中320个株系具有斑茅的特征酶带，为斑茅的真实后代。在杂交可育性和BC1后代主要经济性状方面，斑茅F1品系间和杂交组合问均存在显著差异。斑茅BC1后代的产量性状和糖分仍与甘蔗栽培品种有较大差距，但各性状的最大值已与栽培品种的相当。初步研究结果表明，YC96—40和YC95—41是较好的斑茅F1亲本材料。     

甘蔗属热带种与滇蔗茅远缘杂交F_1代花粉母细胞减数分裂及花粉败育研究

采用染色体压片法研究甘蔗属热带种与滇蔗茅远缘杂交F1代花粉母细胞减数分裂过程及染色体行为,显微观察结果显示:在终变期观察到单价体、二价体和四价体;分裂中期Ⅰ、后期Ⅰ、中期Ⅱ和后期Ⅱ均出现落后染色体;中期Ⅱ形成"八"字形纺锤丝、后期Ⅱ二分体2个子细胞染色体不同步分离;四分体时期观察到三分体、微核、大小不等的四分体以及多面体等异常细胞;同一小花的3个花药中几个不同时期的分裂相同时存在。进一步应用DAPI荧光染料进行染色观察,结果表明,大多数小孢子在单核时期就发生皱缩变形。该结果说明减数分裂过程异常染色体行为和异常细胞分裂是导致杂交F1代花粉完全败育的主要原因。花粉败育时期为小孢子母细胞时期、四分体时期和单核小孢子时期。     

能源植物斑茅在不同生长时期的产量与组分变化

研究不同时期斑茅产量及其化学组分的变化。结果表明:斑茅生物质产量在11月达到最高,其后开始下降;整个生长发育过程中茎叶生物质产量比呈现上升趋势;含水量随生长发育的进行显著降低;叶片灰分含量全年最低为5月,从10月份开始显著增加,至12月份达到最高。茎秆灰分含量略低于叶片,全年最低为10月,最高为7月,变化幅度不大。叶片中木质素含量全年由高到低排列顺序为12月11月9月10月7月8月6月;茎秆中木质素含量全年由高到低排列顺序为12月11月9月7月8月10月6月。10月份茎秆含水量低,灰分含量最低,热值较高,结合产量和燃料品质考虑其更适于直接燃烧,而9月份叶片则更加适于作为生物转化的材料。     

Characterization of intergeneric hybrids of <Emphasis Type="Italic">Erianthus rockii</Emphasis> and <Emphasis Type="Italic">Saccharum</Emphasis> using molecular markers

Erianthus rockii, a wild relative of sugarcane, is drought and cold tolerant, and both are potentially important agronomic traits to the sugarcane industry worldwide. As such it is of interest as a source of parental germplasm to sugarcane breeders and is currently being used in sugarcane introgression programs in both China and Australia. To date morphological characters have been used to verify the putative hybrids produced. Two crosses were generated between two different Saccharum species and two E. rockii accessions. Over 400 AFLP markers were used to identify the intergeneric hybrid progeny as well as determine hybrid diversity. Both crosses generated hybrids but efficiency levels were very different and are probably related to the different Saccharum parent used in each cross. Cross 1 was between a Saccharum officinarum and E. rockii and generated 100% hybrid progeny. Cross 2, however, was between a sugarcane hybrid (S. officinarum × Saccharum spontaneum) and E. rockii and only 10% of the progeny were intergeneric hybrids. Inheritance of markers in the progeny was analysed and for both crosses there were equal numbers of markers from both parents indicating n + n transmission of chromosomes. This is the first verification of E. rockii hybrids with molecular markers. It may now be possible to exploit genes of value from E. rockii in sugarcane breeding programs.     

斑割复合体BC1材料性状的遗传变异与相关分析

探讨斑茅割手密复合体后代叶片性状与单茎性状的关系,为挖掘斑茅、割手密农艺性状的优异基因提供理论依据。对斑茅割手密复合体GXASF108-2-28分别与甘蔗品系GT05-164和GT05-3279杂交获得的BC1后代及亲本共15个材料伸长期蔗叶性状(绿叶数、总叶数和绿叶面积)和单茎性状(株高、茎径和单茎重)进行比较分析。结果表明,两个组合后代在绿叶数、株高、茎径及单茎重上都有超越双亲或亲本之一的优势。绿叶面积在6个数量性状中遗传变异最大,且与株高和单茎重呈极显著正相关,其可作为斑割后代产量相关性状的间接选择指标。聚类分析表明,16份材料可以分为4大类,Ⅰ类材料12-A6-1、12-A6-3、12-A6-5、12-A6-25和12-A6-27绿叶面积大,总体表现较佳,是进一步研究利用的重点材料。     

Analysis of Disequilibrium Hybridization in Hybrid and Backcross Progenies of Saccharum officinarum × Erianthus arundinaceus

Erianthus arundinaceus is an important, closely related genus of Saccharum officinarum L. It is therefore important to understand how the chromosomes are transmitted when it hybridizes with sugarcane. The hybrids and backcross progenies of S. officinarum and E. arundinaceus and their parents were used for Karyotype analysis and to study the law of chromosome transmission. The results showed that the somatic chromosome number of both of the E. arundinaceus Hainan92-105 and Hainan92-77 were 2n = 60 = 60sm, belonging to type 1 A, and the BC1 YC01-21 was 2n = 104 = 100m ＋ 4sm, belonging to type 2C. The other six tested clones belonged to type 2B. The both F1s YC96-66 and YC96-40 that originated from Badila （2n = 80 = 70m ＋ 10sm） with E. Arundinaceus were 2n = 70 = 68m ＋ 2sm, which suggests an n ＋ n transmission. The cross between YC96-66 （female parent） and CP84-1198 （male parent, 2n = 120 = 114m ＋ 6sm） also followed the same genetic law and the somatic chromosome number of their progeny, YC01-3 （2n = 105 = 95m ＋ 10sm）. The cross derived from YC96- 40 （female） and CP84-1198 （male）, YC01-21 had 2n = 104 = 100m ＋ 4sm chromosomes, following the same genetic law of n ＋ n. However, YC01-36 had 2n = 132 = 130m ＋ 2sm chromosomes, which suggests a 2n ＋ n chromosome transmission. It can be inferred that the inheritance of chromosomes was very complex in the BC1. The difference in chromosome number between clones was as high as 28. This could be explained by the 2n ＋ n transmission of chromosomes. In addition, as there was not be a regular number of haploids, this phenomenon is termed as disequilibrium hybridization.