林木生长与养分动态模型研究：Ⅳ.杉木林分断面积方程

基于杉木胸径生长方程Ｄ＝Ｄｍｔ（（Ｋ＋ｔ）本文进一步提高林分断面积的动态方程：Ｇ＝Ｇｍ「ｔ／（Ｋ＋Ｔ）＾２」,新方程表达形式简单,基本参数生物意义确切,应用精确度高,能够反映杉木林分断面积随林分年龄增长的变化规律。     

金线松（属）的细胞分类学研究

我国特有植物金线松Ｐｓｅｕｄｏｌａｒｉｘ ａｍａｂｉｌｉｓ的体细胞染色数目为２ｈ＝４４,不同于ｎ＝１２（Ｍｉｙａｋｅ＆Ｙａｓｕｉ,１９１１）和２ｎ＝２４（Ｄｕｒｒｉｅｕ－Ｖａｂｒｅ,１９６１）的结果。核型公式为Ｋ（２ｎ）＝４４＝４ｓｍ＋４０ｔ）４ＳＣ）属３Ｂ类型,与Ｋ（ｎ）＝２２＝２ｍ＋２０５（Ｓａｘ＆Ｓａｘ,１９３３）和Ｋ（２ｎ）＝４４＋４ｓｍ＋４０ｔ（Ｈｉｚｕｍｅ,１９８８）有差异。染色体相对     

青藏高原毛茛科3种特有植物核型和进化研究

对青藏高原高山冰缘地区毛茛科３种特有植物的核型进行了分析。它们的核型公式（Ｋ）、染色体相对长度组成（Ｃ．Ｒ．Ｌ．）和核型不对称系数（Ａｓ．Ｋ％）分别为：青藏金莲花Ｔｒｏｌｉｕｓｐｕｍｉｌｕｓｖａｒ．ｔａｎｇｕｔｉｃｕｓ：Ｋ（２ｎ）＝６ｍ＋８ｓｍ（２ＳＡＴ）＋２ｓｔ,Ｃ．Ｒ．Ｌ．＝４Ｌ＋４Ｍ２＋４Ｍ１＋４Ｓ,Ａｓ．Ｋ％＝６３．５７,核型属２Ｂ型;甘青乌头Ａｃｏｎｉｔｕｍｔａｎｇｕｔｉｃｕｍ为Ｋ（２ｎ）＝６ｍ＋１０ｓｍ,Ｃ．Ｒ．Ｌ．＝４Ｌ＋８Ｍ１＋４Ｓ,Ａｓ．Ｋ％＝６２．５４,２Ｂ型;单花翠雀花Ｄｅｌｐｈｉｎｉｕｍｃａｎｄｅｌａｂｒｕｍｖａｒ．ｍｏｎａｎｔｈｕｍ为Ｋ（２ｎ）＝６ｍ＋８ｓｍ＋２ｓｔ,Ｃ．Ｒ．Ｌ．＝４Ｌ＋４Ｍ２＋４Ｍ１＋６Ｓ,Ａｓ．Ｋ％＝６４．３４,属３Ｂ型。经同相关近缘种核型资料比较,青藏金莲花核型不对称性和进化程度比金莲花Ｔ．ｃｈｉｎｅｎｓｉｓ低;甘青乌头的核型不对称性和进化程度在其近缘类群（乌头组Ｓｅｃｔ．Ａｃｏｎｉｔｕｍ）已报道的种之内最低;单花翠雀花核型不对称性和进化水平比翠雀组（Ｓｅｃｔ．Ｄｅｌｐｈｉｎａｓｔｒｕｍ）已报道的展毛翠雀花Ｄ．ｋａｍａｏｅｎｓｅｖａｒ．ｇｌａｂｒｅｓｃｅｎｓ、     

小檗科魁臼亚科植物的核型研究

本文首次报道了中华山荷叶与川八角莲的核型,分别为Ｋ（２ｎ）＝１２＝８ｍ（４ＳＡＴ）＋２ｓｔ＋２ｔ及Ｋ（２ｎ）＝１２＝４ｍ（２ＳＡＴ）＋４ｓｍ＋２ｓｔ（２ＳＡＴ）＋２ｔ,核型类型均为２Ａ型。     

七种药用植物的染色体研究

对山东７种药用植物的染色体进行了研究。结果表明：田旋花（ＣｏｎｖｏｌｖｕｌｕｓａｒｖｅｎｓｉｓＬ）的染色体数目为２ｎ＝７８;蜜柑草（ＰｈｙｌａｎｔｈｕｓｍａｔｓｕｍｕｒａｅＨａｖａｔａ）的染色体数目为ｎ＝８８;挂红灯（ＰｈｙｓａｌｉｓａｌｋｅｋｅｎｇｉＬｖａｒｆｒａｎｃｈｅｔｉ（Ｍａｓｔ）Ｍａｋｉｎｏ）的染色体数目为２ｎ＝２４,核型公式为Ｋ（２ｎ）＝２４＝２ｍ＋１８ｓｍ＋２ｓｔ＋２ｓｔ（ｓａｔ）,核型“２Ａ”型;无剌曼陀罗（ＤａｔｕｒａｓｔｒａｍｏｎｉｕｍＬｖａｒｉｎｅｒｍｉｓ（Ｊａｃｑ）ＳｃｈｉｎｚｅｔＴｈｅｌ）的染色体数目为２ｎ＝２４,核型公式为Ｋ（２ｎ）＝２４＝２０ｍ＋４ｓｍ,核型“１Ｂ”型;决明（ＣａｓｉａｔｏｒａＬ）的染色体数目为２ｎ＝２６,核型公式为Ｋ（２ｎ）＝２６＝２４ｍ＋２ｓｍ,核型“１Ａ”型;荔枝草（ＳａｌｖｉａｐｌｅｂｅｉａＲＢｒ）的染色体数目为２ｎ＝１６,核型公式为Ｋ（２ｎ）＝１６＝６ｍ＋１０ｓｍ,核型“２Ａ”型;车前（ＰｌａｎｔａｇｏａｓｉａｔｉｃａＬ）的染色体数目为２ｎ＝３６,核型公式为Ｋ（２ｎ）＝３６＝３２ｍ＋４ｓｍ,核型“１Ａ”型。     

东北产苍术属植物的细胞学研究

报导了中国东北产三种苍术属植物的核型资料,核型公式分别为;北苍术「Ａｔｒａｃｔｙｌｏｄｅｓ ｃｈｉｎｅｎｓｉｓ（ＤＣ．）Ｋｏｉｄｚ．」Ｋ（２ｎ）＝２４＝１２ｍ＋６ｓｍ＋６ｓｔ（４ＳＡＴ）,关苍术「Ａ．ｊａｐｏｎｉｃａ Ｋｏｉｄｚ．」（２ｎ）＝２４＝１４ｍ＋１０ｍ（２ＳＡＴ）朝鲜苍术「Ａ．ｋｏｒｅａｎａ（Ｎａｋａｉ）Ｋｉｔａｍ．」Ｋ（２ｎ）＝２４＝１０ｍ＋１４ｓｍ（２ＳＡＴ）,三者核型对称性均为２Ｂ     

吉林省产5种百合的核型研究

报道了吉林省产５种百合科植物的染色体数目和核型：①毛百合Ｌｉｌｉｕｍ ｄａｕｒｉｃｕｍ Ｋｅｒ．－Ｇｅｗ１．２ｎ＝２４＝２ｍ（２ＳＡＴ）＋２ｓｍ（２ＳＡＴ）＋８ｓｔ（２ＳＡＴ）＋１２ｔ（２ＳＡＴ）;②有斑百合Ｌ．ｃｏｎｃｏｌｏｒ Ｓａｌｉｓｂ．ｖａｒ．ｂｕｓｃｈｉａｎｕｍ（Ｌｏｄｄ．）Ｂａｋｅｒ ２ｎ＝２４＝２ｍ（２ＳＡＴ）＋４ｓｍ（４ＳＡＴ）＋６ｓｔ（２ＳＡＴ）＋１２ｔ;③兰州百合Ｌ．ｄａｖｉｄ     

林木生长与养分动态模型研究IV.杉木林分断面积方程

基于杉木胸径(D)生长方程D=Dmt/(K+t),本文进一步提出林分断面积(G)的动态方程:G=Gm[t/(K+t)]2.新方程表达形式简单,基本参数(断面积极值Gm和生长特征系数K)生物意义确切,应用精确度高,能够反映杉木林分断面积随林分年龄增长的变化规律.     

青海南部七种翠雀属植物的核型

报道了采自青海南部７ 种翠雀属（ Ｄｅｌｐｈｉｎｉｕｍ Ｌ．） 植物的染色体数目和核型。大通翠雀花Ｄ．ｐｙｌｚｏｗｉｉ 的核型公式为２ｎ＝ １６ ＝ ２ｍ ＋ ４ｓｍ ＋ １０ｓｔ; 毛翠雀花Ｄ． ｔｒｉｃｈｏｐｈｏｒｕｍ 的核型公式为２ｎ＝ １６ ＝ ２ｍ ＋ ４ｓｍ ＋ １０ｓｔ; 蓝白翠雀花Ｄ．ａｌｂｏｃｏｅｒｕｌｕｍ 的核型公式为２ｎ ＝ １６ ＝ ２ｍ ＋ ４ｓｍ（２ＳＡＴ） ＋ １０ｓｔ; 囊谦翠雀花Ｄ． ｎａｎｇｃｈｉｅｎｅｎｓｅ 的核型公式为２ｎ ＝ １６ ＝ ２ｍ ＋ ６ｓｍ ＋ ８ｓｔ; 唐古拉翠雀花 Ｄ．ｔａｎｇｋｕｌａｅｎｓｅ 的核型公式为２ｎ ＝ １６ ＝ ２ｍ （２ＳＡＴ） ＋ ６ｓｍ ＋ ８ｓｔ; 单花翠雀花 Ｄ．ｃａｎｄｅｌａｂｒｕｍ ｖａｒ． ｍｏｎａｎｔｈｕｍ 的核型公式为２ｎ ＝ １６ ＝ ２ｍ ＋ ６ｓｍ ＋ ８ｓｔ; 展毛翠雀花Ｄ． ｋａｍａｏｅｎｓｅｖａｒ． ｇｌａｂｒｅｓｃｅｎｓ 的核型公式为２ｎ ＝ １６ ＝ ２ｍ ＋ ６ｓｍ ＋ ８ｓｔ; 前５ 种植物的染色体数目与核型为首次报道。     

小檗科鬼臼亚科植物的核型研究

本文首次报道了中华山荷叶与川八角莲的核型,分别为Ｋ（２ｎ）＝１２＝８ｍ（４ＳＡＴ）＋２ｓｔ＋２ｔ及Ｋ（２ｎ）＝１２＝４ｍ（２ＳＡＴ）十４ｓｍ＋２ｓｔ（２ＳＡＴ）＋２ｔ,核型类型均为ＺＡ型。本文报道的桃儿七及八角莲的核型与前人的结果有一定差异,前者为：Ｋ（２ｎ）＝１２＝６ｍ（４ＳＡＴ）＋２ｓｍ＋２ｓｔ＋２ｔ,２Ｂ型,后者为Ｋ（２ｎ）＝１２＝８ｍ（２ＳＡＴ）＋２ｓｔ（２ＳＡＴ）＋２ｔ,为２Ａ型。本文分析了小檗科鬼臼亚科４个属共７种植物的核型,结果是该类植物的核型极为相似,染色体数目均为２ｎ＝１２,由８条ｍ或ｓｍ,２条ｓｔ以及２条ｔ染色体组成。核型的相似性反映了这类植物的亲缘关系,这４个属的植物是一个自然类群。但随着系统发育,核型的不对称性有所增加,其中以山荷叶属最为对称,八角莲属居中,桃儿七属与足叶草属最不对称。笔者认为,核型上的高度相似是该类植物在系统发育上不发达,属内种类稀少,通常为寡种属或单种属的重要原因。     

Recent decline of high altitude coniferous growth due to thermo-hydraulic constrains: evidence from the Miyaluo Forest Reserve,Western Sichuan Plateau of China

Tree growth decline has been reported in many places around the globe under the context of increasingly warming climate, and strengthening drought intensity is detected to be the primary factor for such decline, particularly in northern forest sites, as well as arid and semi-arid areas. Yet, the forest growth decline in high altitude, high mountain sites certainly merits investigation. Here, we reported faxon fir (Abies fargesii var. faxoniana) forest growth decline (slope = -0.64) at the tree line (4150 m above sea level) in Miyaluo Forest Reserve (MFR) at the Western Sichuan Plateau, southwestern China since 2000. We investigated the cause of tree growth decline by applying dendrochronological approaches. We took tree-ring samples from fir trees at the tree line and developed tree-ring width (TRW) chronology. The tree growth – climate relationship analysis showed that maximum temperature (Tmax) was the primary factor limiting the radial growth of fir trees in the investigated area. The moving correlation analysis indicated the strengthening positive influence of Tmax, spring precipitation, and cloud cover during winter and monsoon period on radial growth since 2000s. Our results have shown that both thermal and hydraulic constrains accounted for the radial growth decline of fir trees at the tree line of MFR in the western Sichuan Plateau.     

Development of a Compatible Taper Function and Stand-Level Merchantable Volume Model for Chinese Fir Plantations

Chinese fir (Cunninghamia lanceolata [Lamb.] Hook) is one of the most important plantation tree species in China with good timber quality and fast growth. It covers an area of 8.54 million hectare, which corresponds to 21% of the total plantation area and 32% of total plantation volume in China. With the increasing market demand, an accurate estimation and prediction of merchantable volume at tree- and stand-level is becoming important for plantation owners. Although there are many studies on the total tree volume estimation from allometric models, these allometric models cannot predict tree- and stand-level merchantable volume at any merchantable height, and the stand-level merchantable volume model was not seen yet in Chinese fir plantations. This study aimed to develop (1) a compatible taper function for tree-level merchantable volume estimation, and (2) a stand-level merchantable volume model for Chinese fir plantations. This “taper function system” consisted in a taper function, a merchantable volume equation and a total tree volume equation. 46 Chinese fir trees were felled to develop the taper function in Shitai County, Anhui province, China. A second-order continuous autoregressive error structure corrected the inherent serial autocorrelation of different observations in one tree. The taper function and volume equations were fitted simultaneously after autocorrelation correction. The compatible taper function fitted well to our data and had very good performances in diameter and total tree volume prediction. The stand-level merchantable volume equation based on the ratio approach was developed using basal area, dominant height, quadratic mean diameter and top diameter (ranging from 0 to 30 cm) as independent variables. At last, a total stand-level volume table using stand basal area and dominant height as variables was proposed for local forest managers to simplify the stand volume estimation.     

紫果云杉天然中龄林分生物量和生产力的研究

本文对四川松潘地区海拔3200—3300m的紫果云杉(Picea purpurea)天然中龄林分生物量和生产力进行了测定和研究。按平均标准木法和样方收获法分别调查了乔木层、幼树下木层、草本地被物层和枯枝落叶层的生物量。据调查数据,建立了估测乔木层单株林木各器官生物量的回归方程,方程的相关系数和估测的精度都较高,具有实用价值。结果表明：林分总生物量平均为158.779吨／公顷,净生产量为3.259吨／公顷·年。其中乔木层生物量为134.408吨／ 公顷,净生产量为2.890吨／公顷·年。研究证实叶面积指数与林分乔木层的生产力关系十分紧密。在—定范围内,叶面积指数为4.34的林分比叶面积指数3.32的,其乔木层净生产量可增加47.2%。林冠浓密的林分比林冠稀疏的生产力要高。另外,林分的产量结构上反映出下层木结 构不合理,应予间伐。     

Ecological Setting of the Wind River Old-growth Forest

The Wind River old-growth forest, in the southern Cascade Range of Washington State, is a cool (average annual temperature, 8.7°C), moist (average annual precipitation, 2223 mm), 500-year-old Douglas-fir–western hemlock forest of moderate to low productivity at 371-m elevation on a less than 10% slope. There is a seasonal snowpack (November–March), and rain-on-snow and freezing-rain events are common in winter. Local geology is characterized by volcanic rocks and deposits of Micocene/Oligocene Micocene-Oligocene (mixed) Micocene and Quaternary age, as well as intrusive rocks of Miocene age. Soils are medial, mesic, Entic Vitrands that are deep (2–3 m), well drained, loams and silt loams, generally stone free, and derived from volcanic tephra. The vegetation is transitional, between the Western Hemlock Zone and the Pacific Silver Fir Zone, and the understory is dominated by vine maple, salal, and Oregon grape. Stand structural parameters have been measured on a 4-ha plot. There are eight species of conifers, with a stand density of 427 trees ha^–1 and basal area of 82.9 m² ha^–1. Dominant conifers include Douglas-fir (35 trees ha^–1), western hemlock (224 trees ha^–1), Pacific yew (86 trees ha^–1), western red cedar (30 trees ha^–1), and Pacific silver fir (47 trees ha^–1). The average height of Douglas-fir is 52.0 m (tallest tree, 64.6 m), whereas western hemlock averages 19.0 m (tallest tree, 55.7 m). The regional disturbance regime is dominated by high-severity to moderate-severity fire, from which this forest is thought to have originated. There is no evidence that fire has occurred in the forest after establishment. Primary agents of stand disturbance, which act at the individual to small groups of trees scale, are wind, snow loads, and drought, in combination and interacting with root-rot and butt-rot fungi, heart-rot fungi, dwarf mistletoe, and bark beetles. The forest composition is slowly shifting from dominance by Douglas-fir, a shade-intolerant species, to western hemlock, western red cedar, Pacific yew, and Pacific silver fir, all shade-tolerant species. The Wind River old-growth forest fits the regional definition of Douglas-fir old growth on western hemlock sites.     

A MIDDLE JURASSIC FOSSIL FOREST FROM NEW ZEALAND

Abstract:  A Middle Jurassic fossil forest, thought to have been growing at high southern palaeolatitudes on the Gondwana margin, is described from New Zealand. Fossil stump horizons are exposed in stratigraphic section within the Urawitiki Measures Formation, Murihiku Supergroup. Tree bases were preserved by silica permineralisation in a sandy braided river setting. Fossil wood is referred to 'abietinean-type' and Agathoxylon . A total of 238 stumps were mapped with measured diameters allowing tree height estimates of 9–40 m. A two-dimensional area (102 m²) allows an interpretation of tree density (2353 trees/ha), biomass (579 t/ha) and stand basal area (146 m²). This horizon is interpreted as a highly productive, young, dense tree stand probably actively regenerating on a flood-cleared surface. Annual growth rings suggest a clearly defined growing season with a rapid onset of favourable temperature, light and water supply conditions at the start and a similarly rapid deterioration at the end. Mean ring width is 1·10 mm and the maximum 9·67 mm. Mean Sensitivity values suggest both 'complacent' and 'sensitive' growth patterns. Broad palaeoclimate interpretations suggest a humid, warm regional climate throughout the growing season.     

杉木观光木混交林凋落物分解及养分释放的研究（英文）

 通过福建省中亚热带杉木观光木混交林(Cunninghamia lanceolata and Tsoongiodendron odorum mixed forest)和杉木纯林(Pure C. lanceolata forest)凋落物的分解和养分释放动态试验研究表明,凋落物各组分分解过程中干物质损失速率随时间而减小,分解1年时以观光木叶的干重损失最大。各组分分解过程中N、P元素浓度增加而K和C元素浓度下降。混交林中各组分的养分释放速率大小为观光木叶>混合样品（等重量的观光木叶和杉木叶混合）>杉木叶>杉木     

Mathematical models for calculating volume growth, represented by the yield tables for the principal wood-producing species of Czechoslovakia

Methods for the construction of volume increment tables for stands on the basis of the volume mean stem are described. The volume increment of the stand (iv) is expressed by the equation (Formula: see text). The stem number of stands (N) is determined directly by 100% or representative enumeration. The mean annual increment (iv) is calculated with the aid of the regression function (Formula: see text) (v) being volume of mean stem and (t) age of stand. The relations (2) were derived for 5 tree species (spruce, fir, pine, beach, oak) from the data of the new Czechoslovak yields tables (1975). The mathematical model for the tree species spruce and pine was tested on the basis of empirical material collected by the Tharandt department of forest management an forest yield science (within the framework of joint research activities) and good results were obtained. The results should be regarded as provisional ones. Further tests are envisaged.     

北京地区侧柏人工林密度效应

密度是影响森林尤其是人工林生长的重要因素,林冠层是森林生态系统与其他系统进行能量和物质交换的重要场所,树木及树冠生长对林分密度的响应关系可以看作是生物对环境变化产生的适应性现象。林分密度效应是生态学和森林培育学的重要研究内容之一。以23块8种不同密度梯度的北京山区侧柏人工幼龄林林分为研究对象分析其树木生长及树冠生长对密度的响应关系,其中树冠指标使用了参照了美国林务局(USDA)的树冠调查指标。研究结果表明:(1)林分平均胸径、平均树高和平均冠幅生长均随密度增大而减小,林分密度大于3000株/hm2时各指标减小的趋势变缓,使用异速生长模型可以很好地拟合这种变化关系;(2)随密度增加,树冠水平方向和垂直方向生长均到显著地抑制作用,树冠外形表现出由饱满冠型向狭长冠型变化的适应性现象;(3)使用树冠二维、三维指标与密度进行相关性分析可知树冠长度、树冠率等指标与林分密度呈负相关关系,树冠圆满度及树冠生产效率与密度表现出极显著正相关关系;(4)采用枝解析的方法研究了树枝长度、材积的平均生长量、连年生长量与密度的关系,结果表明幼龄期各生长量差异不大;(5)在建立冠幅模型时考虑了自变量间的多重共线性问题,所建的胸径单自变量二次方模型能够很好地预测侧柏人工幼龄林冠幅生长过程,模型相关系数R2为0.961。     

Competition and regeneration in quaking aspen–white fir (Populus tremuloides–Abies concolor) forests in the Northern Sierra Nevada,USA

Question: How does competition between quaking aspen (Populus tremuloides) and white fir (Abies concolor) affect growth and spatial pattern of each species? Location: The northern Sierra Nevada, California, USA. Methods: In paired plots in mixed aspen‐ (n=3) or white fir‐dominated (n=2) stands, we mapped trees and saplings and recorded DBH, height, species, and condition and took increment cores. We tallied seedlings by species. Tree ring widths were used as a measure of basal area change over the last decade, and canopy openness was identified using hemispherical photographs. Linear mixed models were used to relate neighborhood indices of competition, stand, and tree‐level variables to diameter increment. Spatial patterns of stems were identified using the Neighborhood Density Function. Results: White fir radial growth was higher in aspen‐ than white fir‐dominated plots. Individual‐level variables were more important for white fir than for aspen growth, while variables representing competitive neighborhood were important only for aspen. The forest canopy was more open in aspen‐ than white fir‐dominated stands, but ample aspen seedlings were observed in all stands. Canopy stems of aspen and white fir were randomly distributed, but saplings and small trees were clumped. Aspen saplings were repelled by canopy aspen stems. Conclusions: Variation in canopy openness explained more stand–stand variation in white fir than aspen growth, but high light levels were correlated with recruitment of aspen seedlings to the sapling class. Radial growth of aspen was predicted by indices of neighborhood competition but not radial growth of white fir, indicating that spacing and stem arrangement was more important for aspen than white fir growth. Fire suppression has removed a major disturbance mechanism that promoted aspen persistence and reduced competition from encroaching conifers, and current forests favor species that regenerate best by advance regeneration (white fir).