CHROMOSOME NUMBERS and RELATIONSHIPS in the GENUS ATRICHUM in NORTH AMERICA 1 Robert J

CHROMOSOME NUMBERS and RELATIONSHIPS in the GENUS ATRICHUM in NORTH AMERICA 1 Robert J

CHROMOSOME NUMBERS AND RELATIONSHIPS IN THE GENUS ATRICHUM IN NORTH AMERICA 1 Robert J. Lowry FRYE (1937) included in the genus Atrichum in ously referred to A. macmillani to A. xanthopelma North America the following taxa: A. crispum (C. Miill.) Jaeg. for reasons of priority. In addi­ (James) Sull., A. crispum var. molle (Holz.) Frye; tion, Frye says the following concerning the rela­ A. undulatum (Hedw.) Beauv., A. undulatum var. tionship between A. xanthopelma and A. angusta­ haussknechtii (Jur, and Milde) Frye, A. undulatum tum, "A. xanthopelma is not a strong species since var. selwyni (Aust.) Frye, A. undulatum var, minus it grades into the nonpapillose A. angustatum. There (Lam. and DC.) Web. and Mohr; A. angustatum would be no violence in considering it a mere va­ (Brid.) B.S.G., A. angustatum var. plurilamellatum riety since the amount of papillosity varies greatly (Jenn.) Frye; A. papillosum (Jenn.) Frye; and A. and sometimes is doubtfully present." Apparently macmillani (Holz.) Frye. The genus is a difficult the papillose form is much more common than one to interpret taxonomically since many of the previously supposed. This was pointed out by morphological features vary only quantitatively. Schornherst (1950) for plants collected in Florida Frye's comments concerning several of the above and southern Georgia where she found that almost species and varieties illustrate the point. Of A. every collection exhibited some degree of papillos­ undulatum var. minus he says, "This seems to be ity, if a sufficient number of leaf sections were merely a depauperate condition of the plants. How­ studied. I have also found this to be true of collec­ ever, there is an element of uncertainty and thus tions in southern Michigan. It is very difficult to it seems best to keep it separate." Of A. angusta­ find plants which can, with certainty, be described tum var. plurilamellatum he says, "Papillose plants as nonpapillose. of this should be referred to A. papillosum. Possi­ In 1937, Frye reduced A. selwyni to the status of bly those not papillose should be referred to A. a variety of A. undulatum on the grounds that it ongustatum, but until we know more about the differs from the species only'in the height of the range and limits of variation it seems best to keep lamellae of the leaf, ~13 cells high in A. selwyni it distinct as a variety." Of A. papillosum and A. and 2-6 cells high in A. undulatum. A re-examina­ macmillani he says, "The two are about equally tion of western material of A. selwyni by Frye papillose. Perhaps A. macmillani is merely a de­ (1949b) resulted in the discovery that the plant is pauperate form of A. papillosum, but the collec­ dioicous and he redescribed the western material tions of both are too limited to enable one to reach as A. selwyni. The eastern bisexual material with a conclusion. For that reason they are kept sep­ higher lamellae should now be referred to A. undu­ arate." latum var. altecristatum Ren. and Card. according Since 1937 more material has become available to Frye. Frye says, "The variety is not clearly dis­ for study and re-evaluations of several of the above tinct and there would be no particular violence in taxa have been published. Anderson (1938) re­ modifying the description of A. undulatum to in­ described A. macmillani and reduced A. papillosum clude it." to synonomy with it as the result of a study of 35 Wareham (1946) described a new species from a specimens of A. macmillani from North Carolina. specimen collected by Lepage at Rupert River, Que­ He also found that the differences between A. an­ bec, Canada and named it Atrichum paraphyillium. gustatum and A. macmillani were reduced to a sin­ It differs from other Atrichums in possessing para­ gle character, viz., the papillosity of the leaf cells of phyllia on the stems. In other vegetative characters the latter. After pointing out that A. angustatum in it most closely approaches A. undulatum. The speci­ Europe never exhibits papillosity, quoting Dixon, men was sterile and Wareham was therefore unable Mdnkemeyer and Limpricht, Anderson states that to describe the sporophytic characteristics. A. macmillani should be retained as a separate spe­ To summarize, the genus Atrichum in North cies for the following reason: "Papillosity must, America is now interpreted as follows: A. crispum then, represent character which has recently ap· a (James) Sull., A. crispum var, molle (Holz.) Frye; peared in plants of this continent and in a genus A. undulatum (Hedw.) Beauv., A. undulatum var. such as this must be allowed a very considerable haussknechtii (Jur. and Milde) Frye, A. undulatum importance. It seems advisable, therefore, to re­ var, altecristatum Ren. and Card., A. undulatum tain A. macmillani, . ." The discovery by var, minus (Lam. and DC.) Web. and Mohr; A. Frye (1949a) that the type specimen of A. xantho­ paraphyllium Wareham; A. selwyni Aust.; A. an­ pelma (described by C. Miiller in 1873; included as gustatum (Brid.l B.S.G., A. angustatum var, plu­ a synonym of A. angustatum in the Moss Flora of rilamellatum (Jenn.) Frye; and A. xanthopelma North America by Frye) is papillose made it nee­ (C. MUll.) Jaeg. essary for him to change the name of plants previ- From the above brief taxonomic history, it ap­ 1 Received for publication November 18, 1953. pears that the genus in North America is composed 410 May, '1954] LOWRY-CHROMOSOME NUMBERS IN ATRICHUM 411 of three major groups: I. A. crispum; II. A. un­ apex obtusely acuminate often cuspidate; margin dulatum, A. selwyni and A. paraphyllium; III. A. serrate in upper % to lh, teeth mostly single but a angustatum and the papillose A. xonthopelma. The few double; leaf cells 20-25ft in longest diameter; present study was undertaken with the hope that a costa with its lamellae obscuring approximately cytological examination of the genus would con­ 1/10 of the median leaf width; lamellae 0-4 fre­ tribute to an understanding of the relationships be­ quently interrupted; 1-3 cells high. Sex: unisexual. tween these groups. Spores: Ifr-20ft in diameter. Vermont, New York, The author extends his thanks to those who have Ontario south in the mountains and in the coastal generously contributed living plants and have other­ plain to Florida; Oregon, British Columbia; Brit­ wise facilitated the completion of this study. I ish Isles. The collection reported on in this paper would especially like to mention Dr. Ruth O. was obtained from Tennessee. The plants were not Schornherst Breen, Dr. A. J. Sharp, Dr. L. E. An­ fruiting and no data regarding the meiotic divisions derson and Dr. W. C. Steere. The author is also in­ were obtained. The gametophytic chromosome debted to the University of Michigan Faculty Re­ complement consists of seven chromosomes, four search Fund and the Fund for the Advancement of relatively long (4.2-6.2ft) and three short (2.5­ Education. 3.4ft) ; fig. 3-4. MATERIAL AND METHoDs.-In addition to mate­ Atrichum angustatum (Brid.) B.S.G. The stem: rial collected by the author in southern Michigan, up to 5 em. in height, rarely branched. Upper the following collections were examined: A trichum. leaves: linear lanceolate, approximately 4.5 mm. crispum and A. undulotum, collected in the vicinity long, 0.fr-O.75 mm. wide; undulate; teeth on the of Alum Cave, Great Smoky Mountains National back on the undulations; apex acute, cuspidate; Park, Tennessee, by Sharp. An interesting collec­ margin serrate in upper lh to %, a few or most of tion of this latter species was obtained from Au the teeth double; leaf cells 10-15ft in longest diam­ Train Falls in northern Michigan by Steere; Atrich­ eter; costa wih its lamellae obscuring %-% of the um angustatum, collected by Sharp at Knoxville, median leaf width; lamellae 4-7, 7-9 cells high. Tennessee, and Atrichum xanthopelma, collected in Sex: unisexual. Spores: 1O-14ft in diameter. Wis­ Florida by Breen. consin, Minnesota south to Texas, Louisiana and Squash preparations were used exclusively in this Florida; Newfoundland, Nova Scotia, New Bruns­ study. Gametophytic chromosomes were obtained wick, Ontario; Europe and Asia. In addition to from the tissue of the stem tip and embryonic material collected in southern Michigan by the au­ leaves. The spore mother cells of Atrichum con­ thor, plants from Tennessee were also examined. tain a large amount of highly refractive granular Seven bivalents are regularly found at metaphase I material which seriously interferes with the obser­ (fig. fr-7). The gametophytic chromosome number vation of the chromosomes. It was found that most is 7. The chromosomes of the complement may be of this material could be eliminated by placing the divided into two groups, 4 long (4-6.4ft) and 3 tissue in acetic alcohol for one to two hours before shorter (2.8-3.5ft)' (fig. 5). squashing. Either acetic orcein or acetic carmine Atrichum xanthopelma (C. Mull.) Jaeg, A com­ was used for staining, depending upon which solu­ plete description of this species is unnecessary since tion gave the best results with a particular lot of it differs. from the above only in the presence of material. The temporary squashes of both gameto­ papillae on the leaf cells. Maine to Minnesota and phytic tissue and spore mother cells were examined south to Missouri and Florida. In addition to plants and figures were drawn or photographed within the from southern Michigan, a collection of this species first few days after their completion. The conver­ from Florida was also examined. The chromosomes sion of temporary slides to permanent preparations appear to be identical to those of Atrichum angus­ was not attempted since the loss of useful cells, not tatum.

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