国产姜科植物的染色体计数(2)

<正> 本文继续对国产姜科植物7属,14种和1栽培种作了染色体计数观察,其中9种和1栽培种是染色体计数的新纪录(表1,图1)。通过对大豆蔻Hornstedtia hainanensis的细胞学观察,初步确定大豆蔻属Hornstedtia的染色体基数为12(X=12)。     

五十种植物的染色体计数

<正>本文对种子植物32科44属的50种(包括变种)作了染色体计数观察,其中16种9变种是染色体计数的新记录。     

国产姜科植物的染色体计数(6)

<正> 本文继续对5属14种姜科植物作染色体计数观察,其中8种是染色体计数的新记录(表1,图版Ⅰ)。通过对偏穗姜(Plagiostachys austrosinensis T. L.Wu & Senjen)的根尖染色体观察,初步确定偏穗姜属(Plagiostachys)的染色体基数为12,并首次报道了阳荷(Zingiber striolatum Diels)的核型。     

紫菜的细胞遗传学研究现状及展望

综述了紫菜属的染色体数目,形态,DNA含量和减数分裂发生的状况等细胞遗传学研究的概况。70多种紫菜已有54种做了染色体计数,紫菜属染色体的一个显著特征是染色体小。种内染色体数目不同,尚属计数误差。并对紫菜的单性生殖和减数分裂提出了可能解决的途径。     

落瓣油茶染色体核型的分析

<正> 山茶属植物约220种,其中报道过:染色体计数的约50种,报道过染色体核型的近10种。作者继浙江红山茶(Camellia chekiangoleosa Hu)、南山茶(C.semiserrata Chi)、白花南山茶C.semiserrata var.albiflora Hu et Huang)和茶梨C.octopetala Hu)之后,对落瓣油茶(C.kissii Wall.)进行染色体计数和核型分析,旨在为油茶育种工作和探索山茶属内的系统发育提供细胞学资料。     

兰花蕉属植物染色体新计数

首次报道了国产兰花蕉属植物2种1变种的体细胞染色体计数,其中兰花蕉及其变种长萼兰花蕉为2n=54,为六倍体;海南兰花蕉为2n=18,为二倍体。分析了世界范围内兰花蕉属植物染色体数及其倍性的地理学关系。     

国产姜科植物的染色体计数初报

<正> 姜科植物是热带、亚热带的特有植物,全世界约有50属1,500种,根据已报道的文献初步统计,国外已进行染色体计数的种类约有20属150种;而占世界姜科植物的半数以上的属和90％的种未作细胞学研究。我国姜科植物种类丰富,约占世界姜科植物的~1/10(150种),但其中~2/8的种类未有染色体资料,这些种类虽为我国所特有,亦缺乏细胞学研究。     

国产姜科植物的染色体计数(5)

<正> 本文继续对7属15种国产姜科植物作染色体计数观察,其中10种是染色体计数的新纪录(表、图)。通过对黄花大苞姜(Caulokaempferia coenobialis)和大苞姜(C.yunnanensis)以及凹唇姜(Bosenbevgia rotunda)和心叶凹唇姜(B.fallax)的染色体观察,确定了大苞姜属(Caulokaempferia)和凹唇姜属(Bosenbergia)的染色体基数分别为12和9。     

东亚植物区系中若干双子叶植物的染色体新计数及其系统学和进化意义

本文报道了东亚植物区系中双子叶植物9个种的体细胞染色体新计数,其中6个是属的新计数,并对这些资料与有关的科或属在系统学和进化上的意义作了讨论。     

南山茶Camellia semiserrata Chi染色体核型的分析

<正> 引言 南山茶(Camellia semiserrata Chi)又名广宁红花油茶,属山茶属(Camellia L.)山茶亚属(Subg.Camellia)红山茶组(Sect.Camellia),分布于我国广东和广西。南山茶的种子油可供食用,为我国南方主要油料经济树种之一,花红色,形大而艳丽,可供观赏。 山茶属植物约共二百种,但已做过染色体计数者仅47种,做过核型分析者则不超过10种。本文提供的南山茶染色体核型的资料将有助于山茶属植物的遗传育种工作和属内系     

Palynology of South Indian Zingiberaceae

MANGALY, J. K. & NAYAR, J. 1990. Palynology of South Indian Zingiberaceae. Light microscope studies on pollen morphology of 21 Old World, tropical taxa of Zingiberaceae reveal that an exine is absent only in Kaempferia . A discontinuous exine layer consisting of circular plates joined together at margins occurs in Alpinia galanga and Amomum hypoleucum while all other taxa possess an uninterrupted exine layer which is commonly 0.7 μm to less than 2.0 μrn thick (3.2 μm in Zingiber zerumbet , 2.5 μm in Amomum hypoleucum ). Exine is spinose in Alpinia (smooth in Alpinia sanderae ), Amomum and Boesenbergia , verrucose in Eleltaria , tuberculate to areolate or striate in Zingiber , papillose in Globba and smooth or nearly so in Curcuma, Costus and Hedychiurn . Pollen grains are spheroidal, 50–90 μm in size (35 μm in Globba ophioglossa ), and inaparturate (foraminate in Costus ), except in Curcuma and Zingiber where they are ovoid to ellipsoidal, 70–135 times 60–80 μm in size and sulcate. A lamellated intine, much thicker than the exine, occurs in all, and it is thinner at the apertural region in Curcuma, Costus and Zingiber; in Elettaria and Hedychiurn it is thinner in one or few large scattered circular areas, and in Boesenbergia and Alpinia zerumbet on one side of the grains. Palynologirally Alpinia, Amomum, Boesenbergia, Kaempferia and Zingiber constitute one group while Elettaria, Hedychiurn and Costus constitute another.     

Pollen Morphology of the Family Zingiberaceae in China—Pollen Types and Their Significance in the Taxonomy

Pollen morphology of 89 species and 3 varieties belonging to 18 genera (out of 150 spcies in 20 genera) of Zingiberaceae in China was studied under both light microscope and scanning electron microscope. Pollen grains of Zingiberaceae are spherical, subspherical, ovoid and prolate, 36-225 μm in size, nonaperturate or aperturate (spiraperturate, porate). Pollen grains are almost not resistant to acetolysis. The wall is composed of a very thin exine and a thick intine. The exine is psilate, spinate, cerebelloid-areolate, striate, verrucate and foveolate. According to the presence or the absence of aperture and differential ornamentations, two types and six subtypes are recognized: I. The type Nonaperturate: (85 species and 3 varieties in 18 genera). Four subtypes can be recognized within the type based on the characteristics of the exine sculpture. These are: (1) The subtype Psilate, in which, the exine is nearly smooth (including: Hedychium, Curcuma, Kaempferia, Caulokaempferia coenobilis, Boesenbergia rotunda, Stahlianthus, Amomum compactum, Etingera, Hornstedtis, Rhynchanthus). (2) The subtype Spinate, which comprises two groups: (A) The group Short-spinate, pollen grains with smaller spines (Globba), (B) The group Long-spinate, pollen grains with longer spines (Alpinia, Amomum, Plagiostachys, Roscoea, Cautleya, Boesenbergia fallax, Caulokaempferia yunnanensis). (3) The subtype Cereblloid-areolate, pollen grains of which are spherical or subspherical, with cerebelloid sculpture (Zingiber Sect. Zingiber). (4) The subtype Striate, pollen grains of which are prolate or oliveshaped, and striate (Zingiber Setc. Cryptanthium). II. The type Aperturate, in which pollen grains are acetilysis-resistant and possess distinct apertures (mixed colpate-porate or forate), including two subtypes: (1)The subtype Mixed colpate and Porate. Pollen grains are both 3-colpate and 1-3-porate, and usually with one long spiral, two short (straight or slightly curved) colpi and 1-3-poris. The exine is verrucate or not, nearly sinuolate (Costus speciosus, C. tonkinensis, C. lacerus). (2) The subtype porate, whose grains are 6-8-porate and exine is foveolate (Costus megalobractea). The taxonomic significance of the pollen types in the family Zingiberaceae is also discussed.     

New Taxa of Zingiberaceae from Yunnan

Twelve new species of Zingiberaceae are described from Yunnan Province, China. They are Amomum fragle S. Q. Tong, A. quadrato-laminare S. Q. Tong, A. verrucosum S. Q. Tong, A. glabrum S. Q. Tong, A. capsiciforme S. Q. Tong, A. coriandriodorum S. Q. Tong, Alpinia rubromaculata S. Q. Tong, A. emaculata S. Q. Tong, Zingiber nigrimaculatum S. Q. Tong, Hedychium glabrum S. Q. Tong, Costus viridis S. Q. Tong and Costus oblongus S. Q.Tong. A key to species of the genus Costus is given at the end of text.     

姜科植物的引种

华南植物园二十多年来共引种姜科植物２３属,１３５种,３变种,３变型,其中存活１８属,１０３种,２变种,２变型。对长果姜（Ｓｉｌｉｑｕａｍｏｍｕｍ ｔｏｎｋｉｎｅｎｓｅ Ｂａｉｌｌ．）、茴香砂仁「Ｅｔｌｉｎｇｅｒａ ｙｕｎｎａｎｅｎｓｉｓ（Ｔ．Ｌ．Ｗｕ ｅｔ Ｓｅｎｊｅｎ）Ｒ．Ｍ．Ｓｍｉｔｈ」等三级保护植物进行了迁地保护。姜科植物在我园引种有高的成活率,开花结实的种类较多,引种较为成功,特别是原产亚     

光叶云南草蔻的植物分类学研究

作者在调查云南草蔻及光叶云南草蔻资源时发现,过去在云南、广西和广东被定为光叶云南草蔻的植物为三种不同的山姜属植物,从中分出两新种:那坡山姜Alpinia napoensis H.Dong et G.J.Xu和卵果山姜 Alpinia ovoidocarpa H.Dong et G.J.Xu,并对光叶云南草蔻作了形态特征补充描述。查清光叶云南草蔻Alpinia blepharocalyx K.Schum.var.glabrior(Hand.-Mazz.)T.L.Wu仅分布云南南部及东南部,广西、广东无分布。     

Pyrgophyllum,a New Genus of Zingiberaceae from China

Pyrgophyllum (Gagnep.) T. L. Wu et Z. Y. Chen is a monotypic genus of Zingiberaceae from China. Originally, it was placed in Kaempferia as a subgenus by Gagnepain (1901), later transferred to Camptandra by Schumann (1904) and to Caulokaempferia by R. M. Smith. (1972). In this paper, the authors suggest that the separation of Pyrgophyllum at generic rank is justified on cytological, morphological and anatomical evidence. It is characterised by the large lamina-like bracts, which are rarely seen in Zingiberaceae. The margin of each bract is adnate to the main axis of the inflorescence at the base and the lip is lobed. Trichomes unicellular, stomata each with 4-7 lateral subsidiary cells, lateral veins are of three various types of vascular bundles: girder-shaped, semigirder-shaped and isolated. The pollen grains are spinecent. The basic chromosome number (x) is 21. The type species, Pyrgophyllum yunnanensis (Gagnep.) T. L. Wu et Z. Y. Chen (Kaempferia yunnanensis Gagnep.), is only distributed in Yunnan and Sichuan provinces of China.