植物生态学报 ›› 2016, Vol. 40 ›› Issue (2): 127-139.DOI: 10.17521/cjpe.2015.0365
出版日期:
2016-02-10
发布日期:
2016-03-08
通讯作者:
赵秀海
Yan YAN, Xin-Na ZHANG, Jie YAO, Chun-Yu ZHANG, Xiu-Hai ZHAO*()
Online:
2016-02-10
Published:
2016-03-08
Contact:
Xiu-Hai ZHAO
摘要:
为了解蛟河地区木本植物幼苗的数量特征及其年际动态, 以及影响幼苗数量的生态学过程, 该文以不同演替阶段针阔混交林监测样地为基础, 在样地内共设置了451个种子雨-幼苗观测样站.通过2012-2014年连续3年的幼苗监测调查, 对木本植物幼苗物种组成,数量特征,高度级结构及其年际动态进行了分析, 并用多元回归的方法分析了幼苗数量与林分类型,同种成体胸高断面积之和及林冠开阔度的关系.结果表明: (1)林下幼苗层主要木本植物的组成在不同演替阶段林分中差异不大, 并与样地内主要树种组成保持着一定相似性, 但幼苗重要值排序在年际间和不同演替阶段稍有波动.(2) 3个样地内幼苗个体数量和物种数都主要集中在5-20 cm高度级之间, 之后随高度级增加而逐渐减少, 但幼苗个体数量减少更快.表明与种间竞争相比, 物种内部的相互作用是导致幼苗死亡的主要原因, 证实了负密度制约效应在幼苗更新过程中的作用.(3) 5个主要树种的幼苗数量都与同种成体胸高断面积之和呈显著的正相关关系, 还呈现出明显的生境偏好, 表明扩散限制和生态位过程也会影响幼苗的数量和分布.该文间接证实了负密度制约效应,扩散限制和生态位过程对温带地区不同演替阶段森林群落中幼苗数量组成的影响.
闫琰, 张新娜, 姚杰, 张春雨, 赵秀海. 吉林蛟河不同演替阶段针阔混交林乔木幼苗数量组成及其时间动态. 植物生态学报, 2016, 40(2): 127-139. DOI: 10.17521/cjpe.2015.0365
Yan YAN, Xin-Na ZHANG, Jie YAO, Chun-Yu ZHANG, Xiu-Hai ZHAO. Composition and temporal dynamics of tree seedlings at different successional stages of conifer and broad-leaved mixed forests in Jiaohe, Jilin Province, China. Chinese Journal of Plant Ecology, 2016, 40(2): 127-139. DOI: 10.17521/cjpe.2015.0365
林型 Forest type | 样地面积 Plot area | 经纬度 Longitude and Latitude | 海拔 Elevation (m) | 样站数 No. of stations | 原始植被 Primary vegetation |
---|---|---|---|---|---|
中龄林 Half-mature forest | 420 m × 520 m | 43.97º N, 127.73º E | 468-519 | 99 | 阔叶红松林 Broad-leaved Pinus koraiensis forest |
成熟林 Mature forest | 500 m × 840 m | 43.95º N, 127.73º E | 459-517 | 209 | 阔叶红松林 Broad-leaved Pinus koraiensis forest |
老龄林 Old-growth forest | 500 m × 600 m | 43.97º N, 127.75º E | 576-784 | 143 | 阔叶红松林 Broad-leaved Pinus koraiensis forest |
表1 吉林蛟河森林永久监测样地概况
Table 1 Summary of permanent forest plots in Jiaohe, Jilin Province, China
林型 Forest type | 样地面积 Plot area | 经纬度 Longitude and Latitude | 海拔 Elevation (m) | 样站数 No. of stations | 原始植被 Primary vegetation |
---|---|---|---|---|---|
中龄林 Half-mature forest | 420 m × 520 m | 43.97º N, 127.73º E | 468-519 | 99 | 阔叶红松林 Broad-leaved Pinus koraiensis forest |
成熟林 Mature forest | 500 m × 840 m | 43.95º N, 127.73º E | 459-517 | 209 | 阔叶红松林 Broad-leaved Pinus koraiensis forest |
老龄林 Old-growth forest | 500 m × 600 m | 43.97º N, 127.75º E | 576-784 | 143 | 阔叶红松林 Broad-leaved Pinus koraiensis forest |
图1 三个样地监测样站分布示意图.
Fig. 1 The layout of monitoring stations in each of three forest plots. HF, half-mature forest; MF, mature forest; OGF, old-growth forest.
图3 不同演替阶段幼苗相对多度及物种数的高度级分布.HF, 中龄林; MF, 成熟林; OGF, 老龄林.
Fig. 3 Relative abundance and the number of species by height class distribution in different successional stages. HF, half-mature forest; MF, mature forest; OGF, old-growth forest.
年份 Year | 物种 Species | CMF | COGF | A | 林冠开阔度 Canopy openness |
---|---|---|---|---|---|
2013 | 五角枫 Acer pictum subsp. mono | 0.141 | 0.584 | 0.473 | -0.083 |
东北枫 Acer mandshuricum | -0.187 | 0.329 | 0.521 | -0.039 | |
水曲柳 Fraxinus mandshurica | -0.059 | -0.589 | 0.214 | -0.010 | |
青楷枫 Acer tegmentosum | 0.086 | 0.413 | 0.223 | -0.092 | |
紫椴 Tilia amurensis | 0.031 | 0.100 | 0.246 | -0.015 | |
2014 | 五角枫 Acer pictum subsp. mono | 0.135 | 0.361 | 0.242 | -0.068 |
东北枫 Acer mandshuricum | -0.031 | 0.281 | 0.265 | 0.035 | |
水曲柳 Fraxinus mandshurica | 0.061 | -0.267 | 0.193 | 0.001 | |
青楷枫 Acer tegmentosum | 0.021 | 0.274 | 0.140 | -0.067 | |
紫椴 Tilia amurensis | 0.208 | 0.237 | 0.301 | -0.005 |
表3 5个物种幼苗数量与林分类型,20 m内同种成体胸高断面积之和(A)和林冠开阔度的多元线性回归结果
Table 3 Results of the multiple linear regression analysis on the seedling abundance of five species against the forest types, the sum of conspecific basal area within 20 m (A) and canopy openness
年份 Year | 物种 Species | CMF | COGF | A | 林冠开阔度 Canopy openness |
---|---|---|---|---|---|
2013 | 五角枫 Acer pictum subsp. mono | 0.141 | 0.584 | 0.473 | -0.083 |
东北枫 Acer mandshuricum | -0.187 | 0.329 | 0.521 | -0.039 | |
水曲柳 Fraxinus mandshurica | -0.059 | -0.589 | 0.214 | -0.010 | |
青楷枫 Acer tegmentosum | 0.086 | 0.413 | 0.223 | -0.092 | |
紫椴 Tilia amurensis | 0.031 | 0.100 | 0.246 | -0.015 | |
2014 | 五角枫 Acer pictum subsp. mono | 0.135 | 0.361 | 0.242 | -0.068 |
东北枫 Acer mandshuricum | -0.031 | 0.281 | 0.265 | 0.035 | |
水曲柳 Fraxinus mandshurica | 0.061 | -0.267 | 0.193 | 0.001 | |
青楷枫 Acer tegmentosum | 0.021 | 0.274 | 0.140 | -0.067 | |
紫椴 Tilia amurensis | 0.208 | 0.237 | 0.301 | -0.005 |
[1] | Bin Y, Ye WH, Cao HL, Huang ZL, Lian JY (2011). Seedling distribution in a subtropical evergreen broad-leaved forest plot in the Dinghu Mountain.Biodiversity Science, 19, 127-133.(in Chinese with English abstract)[宾粤, 叶万辉, 曹洪麟, 黄忠良, 练琚愉 (2011). 鼎湖山南亚热带常绿阔叶林20公顷样地幼苗的分布. 生物多样性, 19, 127-133.] |
[2] | Chen JW, Zhang Q, Li XS, Cao KF (2011). Steady and dynamic photosynthetic responses of seedlings from contrasting successional groups under low-light growth conditions.Physiologia Plantarum, 141, 84-95. |
[3] | Chen L, Mi XC, Comita LS, Zhang LW, Ren HB, Ma KP (2010). Community-level consequences of density dependence and habitat association in a subtropical broad- leaved forest.Ecology letters, 13, 695-704. |
[4] | Clark CJ, Poulsen JR, Levey DJ (2012). Vertebrate herbivory impacts seedling recruitment more than niche partitioning or density-dependent mortality.Ecology, 93, 554-564. |
[5] | Comita LS, Hubbell SP (2009). Local neighborhood and species shade tolerance influence survival in a diverse seedling bank.Ecology, 90, 328-334. |
[6] | Comita LS, Uriarte M, Thompson J, Jonckheere I, Canham CD, Zimmerman JK (2009). Abiotic and biotic drivers of seedling survival in a hurricane-impacted tropical forest.Journal of Ecology, 97, 1346-1359. |
[7] | Connell JH (1971). On the role of natural enemies in preventing competitive exclusion in some marine animals and in rain forest trees. In: den Boer PJ, Gradwell GR eds. Dynamics of Population. Center for Agricultural Publishing and Documentation, Wageningen, The Netherlands. 289-312. |
[8] | D'Amato AW, Orwig DA, Foster DR (2009). Understory vegetation in old-growth and second-growth Tsuga canadensis forests in western Massachusetts.Forest Ecology and Management, 257, 1043-1052. |
[9] | Davies SJ (2001). Tree mortality and growth in 11 sympatric Macaranga species in Borneo.Ecology, 82, 920-932. |
[10] | Deb P, Sundriyal RC (2008). Tree regeneration and seedling survival patterns in old-growth lowland tropical rainforest in Namdapha National Park, northeast India.Forest Ecology and Management, 255, 3995-4006. |
[11] | Guo QJ (2013). Effects of Selection and Prescribed Fire Disturbances on Longleaf Pine Seedling Regeneration. PhD dissertation, Northwest A&F University, Yangling, Shaanxi. 2-3(in Chinese with English abstract).[郭秋菊 (2013). 择伐和火干扰对长叶松幼苗更新的影响. 博士学位论文, 西北农林科技大学, 陕西杨凌. 2-3.] |
[12] | Harms KE, Condit R, Hubbell SP, Foster RB (2001). Habitat associations of trees and shrub in a 50-ha neotropical forest plot.Journal of Ecology, 89, 947-959. |
[13] | Harms KE, Wright SJ, Calderon O, Hernandez A, Herre EA (2000). Pervasive density-dependent recruitment enhances seedling diversity in a tropical forest.Nature, 404, 493-495. |
[14] | Hou JH, Ma KP (2002). On mechanisms of species coexistence in plant communities.Acta Phytoecologica Sinica, 26, 1-8.(in Chinese with English abstract)[侯继华, 马克平 (2002). 植物群落物种共存机制的研究进展. 植物生态学报, 26, 1-8.] |
[15] | Jansen PA, Visser MD, Wright SJ, Rutten G, Muller-Landau HC, Rejmanek M (2014). Negative density dependence of seed dispersal and seedling recruitment in a neotropical palm.Ecology letters, 17, 1111-1120. |
[16] | Janzen DH (1970). Herbivores and the number of tree species in tropical forests.The American Society of Naturalists, 104, 501-528. |
[17] | Kang B, Liu SR, Wang DX, Zhang Y, Liu HR, Du YL (2011). Regeneration characteristics of woody plant seedlings in typical secondary forests in Qinling Mountains.Chinese Journal of Applied Ecology, 22, 3123-3130.(in Chinese with English abstract)[康冰, 刘世荣, 王得祥, 张莹, 刘红茹, 杜焰玲 (2011). 秦岭山地典型次生林木本植物幼苗更新特征. 应用生态学报, 22, 3123-3130.] |
[18] | Kang B, Wang DX, Li G, Gao YX, Zhang Y, Du YL (2012). Characteristics of seedlings regeneration in Quercus aliena var. acuteserrata secondary forests in Qinling Mountains.Acta Ecologica Sinica, 32, 2738-2747.(in Chinese with English abstract)[康冰, 王得祥, 李刚, 高妍夏, 张莹, 杜焰玲 (2012). 秦岭山地锐齿栎次生林幼苗更新特征. 生态学报,32 , 2738-2747.] |
[19] | Lebrija-Trejos E, Wright SJ, Hernandez A, Reich PB (2014). Does relatedness matter? Phylogenetic density-dependent survival of seedlings in a tropical forest.Ecology, 95, 940-951. |
[20] | LePage PT, Canham CD, Coates KD, Bartemucci P (1999). Seed abundance versus substrate limitation of seedling re- cruitment in northern temperate forests of British Colum- bia.Canadian Journal of Forest Research, 30, 415-427. |
[21] | Li JQ, Zhu N (1990). Population structure of Korean pine and its dynamics.Journal of Ecology, 9, 6-10.(in Chinese with English abstract)[李俊清, 祝宁 (1990). 红松的种群结构与动态过程. 生态学杂志,9, 6-10.] |
[22] | Li SF, Liu WD, Su JR, Zhang JR, Liu QY (2008). Woody seedling regeneration in secondary succession of monsoon broad-leaved evergreen forest in Puer, Yunnan, Southwest China.Acta Ecologica Sinica,18, 5653-5662.(in Chinese with English abstract)[李帅锋, 刘万德, 苏建荣, 张志钧, 刘庆云 (2008). 普洱季风常绿阔叶林次生演替中木本植物幼苗更新特征. 生态学报, 18, 5653-5662.] |
[23] | Li X, Xu ZB, Tao DL (1989). Natural regeneration of Korean pine in broad-leaved Korean pine stands Fenglin Natural Reserve of Xiaoxing'anling.Journal of Northeast Forestry University, 17(6), 1-7.(in Chinese with English abstract)[李昕, 徐振邦, 陶大立 (1989). 小兴安岭丰林自然保护区阔叶红松林红松天然更新研究. 东北林业大学学报, 17(6), 1-7.] |
[24] | Li XL, Wang H, Zheng Z, Lin LX, Deng XB, Cao M (2009). Composition, spatial distribution and survival during the dry season of tree seedlings in a tropical forest in Xinshuangbanna, SW China.Chinese Journal of Plant Ecology, 33, 658-671.(in Chinese with English abstract)[李晓亮, 王洪, 郑征, 林露湘, 邓晓保, 曹敏 (2009). 西双版纳热带森林树种幼苗的组成,空间分布和旱季存活. 植物生态学报,33, 658-671.] |
[25] | Li XS, Liu WY, Chen JW, Yuan CM (2009). Seedling regeneration in primary moist evergreen broad-leaved forest and different types secondary vegetations in Ailao Mountains.Chinese Journal of Ecology, 28, 1921-1927.(in Chinese with English abstract)[李小双, 刘文耀, 陈军文, 袁春明 (2009). 哀牢山湿性常绿阔叶林及不同类型次生植被的幼苗更新特征. 生态学杂志,28, 1921-1927.] |
[26] | Li XS, Peng MC, Dang CL (2007). Research progress on natural regeneration of plants.Chinese Journal of Ecology, 26, 2081-2088.(in Chinese with English abstract)[李小双, 彭明春, 党承林 (2007). 植物自然更新研究进展. 生态学杂志, 26, 2081-2088.] |
[27] | Li Y, Tao JP, Wang YJ, Yu XH, Xi Y (2007). Effects of Far- gesia nitida on regeneration of Abies faxoniana seedlings near the edge of subalpine dark coniferous forest. Journal of Plant Ecology (Chinese Version), 31, 283-290.(in Chi- nese with English abstract)[李媛, 陶建平, 王永健, 余小红, 席一 (2007). 亚高山暗针叶林林缘华西箭竹对岷江冷杉幼苗更新的影响 . 植物生态学报,31,, 283-290.] |
[28] | Lin LX, Comita LS, Zheng Z, Cao M (2012). Seasonal differentiation in density-dependent seedling survival in a tropical rain forest.Journal of Ecology, 100, 905-914. |
[29] | Liu ZG, Ji LZ, Hao ZQ, Zhu JJ, Kang HZ (2004). Effect of cone-picking on natural regeneration of Korean pine in Changbai Mountain Nature Reserve. Chinese Journal of Applied Ecology, 15, 958-962.(in Chinese with English abstract)[刘足根, 姬兰柱, 郝占庆, 朱教君, 康宏樟 (2004). 松果采摘对长白山自然保护区红松天然更新的影响. 应用生态学报, 15, 958-962.] |
[30] | Nilsen ET, Walker JF, Miller OK, Semones SW, Lei TT, Clinton BD (1999). Inhibition of seedling survival under Rhododendron maximum (Ericaceae): Could allelopathy be a cause?American Journal of Botany, 86, 1597-1605. |
[31] | Peng SJ, Huang ZL, Peng SL, Ouyang XJ, Xu GL (2004). Factors influencing mortality of seed and seedling in plant nature regeneration process. Guihaia, 24, 113-121.(in Chinese with English abstract)[彭闪江, 黄忠良, 彭少麟, 欧阳学军, 徐国良 (2004). 植物天然更新过程中种子和幼苗死亡的影响因素. 广西植物,24, 113-121.] |
[32] | Rüger N, Huth A, Hubbell SP, Condit R (2009). Response of recruitment to light availability across a tropical lowland rain forest community.Journal of Ecology, 97, 1360-1368. |
[33] | Shang ZH, Long RJ, Ma YS, Ding LM (2008). Spatial heterogeneity and similarity of adult plants and seedlings in "black soil land" secondary weed community, Qinghai- Tibetan Plateau. Journal of Plant Ecology (Chinese Version), 32, 1157-1165.(in Chinese with English abstract)[尚占环, 龙瑞军, 马玉寿, 丁路明 (2008). 青藏高原"黑土滩"次生毒杂草群落成体植株与幼苗空间异质性及相似性分析 . 植物生态学报,32, 1157-1165.] |
[34] | Su Y, Jiao JY, Wang ZJ (2014). Characteristics of seedling survival in habitats of hill and gully slopes in hill-gully Loess Plateau region of northern Shaanxi.Chinese Journal of Plant Ecology, 38, 694-709.(in Chinese with English abstract)[苏嫄, 焦菊英, 王志杰 (2014). 陕北黄土丘陵沟壑区坡沟立地环境下幼苗的存活特征. 植物生态学报, 38, 694-709.] |
[35] | Szwagrzyk J, Szewczyk J, Bodziarczyk J (2001). Dynamics of seedling banks in beech forest: Results of a 10-year study on germination, growth and survival.Forest Ecology and Management, 141, 237-250. |
[36] | Teegalapalli K, Hiremath AJ, Jathanna D (2010). Patterns of seed rain and seedling regeneration in abandoned agricultural clearings in a seasonally dry tropical forest in India.Journal of Tropical Ecology, 26, 25-33. |
[37] | Turner IM (1990). Tree seedling growth and survival in a Malaysian rain forest.Biotropica, 22, 146-154. |
[38] | Uriarte M, Canham CD, Thompson J, Zimmerman JK, Brokaw N (2005). Seedling recruitment in a hurricane-driven tropical forest: Light limitation, density-dependence and the spatial distribution of parent trees.Journal of Ecology, 93, 291-304. |
[39] | von Breugel M, Bongers F, Martíínez-Ramos M (2007). Species dynamics during early secondary forest succession: Recruitment, mortality and species turnover.Biotropica, 35, 610-619. |
[40] | Wang CH, Li JQ, Chen FQ, Yang Y (2011). Factors affecting seedling regeneration of Liquidambar formosana in the L. formosana forests in hilly regions of Southeast Hubei, China. Chinese Journal of Plant Ecology, 35, 187-194.(in Chinese with English abstract)[王传华, 李俊清, 陈芳清, 杨莹 (2011). 鄂东南低丘地区枫香林下枫香幼苗更新限制因子. 植物生态学报, 35, 187-194.] |
[41] | Willand JE, Baer SG, Gibson DJ, Klopf RP (2013). Temporal dynamics of plant community regeneration sources during tallgrass prairie restoration.Plant Ecology, 214, 1169-1180. |
[42] | Yan Y, Zhang C, Wang Y, Zhao X, von Gadow K (2015). Drivers of seedling survival in a temperate forest and their relative importance at three stages of succession.Ecology and Evolution. 5, 4287-4299. |
[43] | Yao J, Yan Y, Zhang CY, Pi TH, Zhao XH (2015). Composi- tion and monthly dynamics of tree seedlings in a conifer- ous and broad-leaved mixed forest in Jiaohe, Jilin Prov- ince, China.Chinese Journal of Plant Ecology, 39, 717-725.(in Chinese with English abstract)[姚杰, 闫琰, 张春雨, 邳田辉, 赵秀海 (2015). 吉林蛟河针阔混交林乔木幼苗组成与月际动态. 植物生态学报, 39, 717-725.] |
[44] | Yin HJ, Cheng XY, Lai T, Lin B, Liu Q (2011). Seed rain, soil seed bank and seedling regeneration in a 65-year Picea asperata plantation in subalpine coniferous, western Sichuan, China.Chinese Journal of Plant Ecology, 35, 35-44.(in Chinese with English abstract)[尹华军, 程新颖, 赖挺, 林波, 刘庆 (2011). 川西亚高山65年人工云杉林种子雨,种子库和幼苗定居研究 . 植物生态学报,35, 35-44.] |
[45] | Yu F, Shi XX, Chen LL, Huang QP, Song B (2013). Species composition and regeneration characteristics of main woody plant seedlings in a pine-oak mixed forest in Qinling Mountains.Acta Botanica Boreali-Occidentalia Sinica, 33, 592-598.(in Chinese with English abstract)[于飞, 史晓晓, 陈莉莉, 黄青平, 宋彬 (2013). 秦岭山地松栎混交林主要木本植物组成及更新特征 . 西北植物学报, 33, 592-598.] |
[46] | Yu XY, Li YH (2010). Characteristics of woody plant regeneration in karren-habitats successional plant communities in Yunnan Shilin karst area of China. Chinese Journal of Plant Ecology, 34, 889-897.(in Chinese with English abstract)[俞筱押, 李玉辉 ( 2010). 滇石林喀斯特植物群落不同演替阶段的溶痕生境中木本植物的更新特征. 植物生态学报, 34, 889-897.] |
[47] | Zhang J, Li BH, Bai XJ, Yuan ZQ, Wang XG, Ye J (2009). Composition and interannual dynamics of tree seedlings in broad-leaved Korean pine (Pinus koraiensis) mixed forest in Changbai Mountain.Chinese Biodiversity, 17, 385-396.(in Chinese with English abstract)[张健, 李步杭, 白雪娇, 原作强, 王绪高, 叶吉 (2009). 长白山阔叶红松林乔木树种幼苗组成及其年际动态. 生物多样性,17, 385-396.] |
[1] | 文佳 张新娜 王娟 赵秀海 张春雨. 性状调节幼苗存活率对邻体竞争和环境的响应 [J]. 植物生态学报, 2024, 48(预发表): 0-0. |
[2] | 冉松松, 余再鹏, 万晓华, 傅彦榕, 邹秉章, 王思荣, 黄志群. 邻域树种多样性对杉木叶片氮磷生态化学计量比的影响[J]. 植物生态学报, 2023, 47(7): 932-942. |
[3] | 祝维, 周欧, 孙一鸣, 古丽米热·依力哈木, 王亚飞, 杨红青, 贾黎明, 席本野. 混交林内毛白杨和刺槐根系吸水的动态生态位划分[J]. 植物生态学报, 2023, 47(3): 389-403. |
[4] | 杨玲, 梁思琪, 潘佳明, 韦金鑫, 丁涛, 蒋日红, 邵毅贞, 张宪春, 刘勇波, 向巧萍. 濒危植物百山祖冷杉和资源冷杉的物种划分及其遗传资源的保护[J]. 植物生态学报, 2023, 47(12): 1629-1645. |
[5] | 李杰, 郝珉辉, 范春雨, 张春雨, 赵秀海. 东北温带森林树种和功能多样性对生态系统多功能性的影响[J]. 植物生态学报, 2023, 47(11): 1507-1522. |
[6] | 赵榕江, 陈焘, 董丽佳, 郭辉, 马海鲲, 宋旭, 王明刚, 薛伟, 杨强. 植物-土壤反馈及其在生态学中的研究进展[J]. 植物生态学报, 2023, 47(10): 1333-1355. |
[7] | 叶洁泓, 于成龙, 卓少菲, 陈新兰, 杨科明, 文印, 刘慧. 木兰科植物叶片光合系统耐热性与叶片形态及温度生态位的关系[J]. 植物生态学报, 2023, 47(10): 1432-1440. |
[8] | 张零念, 朱贵青, 杨宽, 刘星月, 巩合德, 郑丽. 滇中云南杨梅灌丛主要木本植物生态位与种间联结[J]. 植物生态学报, 2022, 46(11): 1400-1410. |
[9] | 王春成, 张云玲, 马松梅, 黄刚, 张丹, 闫涵. 中国扁桃亚属四种野生扁桃的系统发育与物种分化[J]. 植物生态学报, 2021, 45(9): 987-995. |
[10] | 闫涵, 张云玲, 马松梅, 王春成, 张丹. 黑果枸杞在新疆的适宜分布模拟与局部环境适应性分化[J]. 植物生态学报, 2021, 45(11): 1221-1230. |
[11] | 韩大勇, 张维, 努尔买买提•依力亚斯, 杨允菲. 植物种群更新的补充限制[J]. 植物生态学报, 2021, 45(1): 1-12. |
[12] | 胡宗达, 刘世荣, 罗明霞, 胡璟, 刘兴良, 李亚非, 余昊, 欧定华. 川西亚高山不同演替阶段天然次生林土壤碳氮含量及酶活性特征[J]. 植物生态学报, 2020, 44(9): 973-985. |
[13] | 车俭, 郑洁, 蒋娅, 金毅, 乙引. 中国亚热带森林动态监测样地常绿和落叶木本被子植物谱系结构及生态习性差异[J]. 植物生态学报, 2020, 44(10): 1007-1014. |
[14] | 胡菀,张志勇,陈陆丹,彭焱松,汪旭. 末次盛冰期以来观光木的潜在地理分布变迁[J]. 植物生态学报, 2020, 44(1): 44-55. |
[15] | 施晶晶,赵鸣飞,王宇航,薛峰,康慕谊,江源. 黄土高原腹地人工林下草本层群落构建机制[J]. 植物生态学报, 2019, 43(9): 834-842. |
阅读次数 | ||||||
全文 |
|
|||||
摘要 |
|
|||||
Copyright © 2022 版权所有 《植物生态学报》编辑部
地址: 北京香山南辛村20号, 邮编: 100093
Tel.: 010-62836134, 62836138; Fax: 010-82599431; E-mail: apes@ibcas.ac.cn, cjpe@ibcas.ac.cn
备案号: 京ICP备16067583号-19