科尔沁沙质草地放牧和围封条件下的土壤种子库

该文研究了科尔沁沙质草地在放牧和围封条件下土壤种子库密度、组成及其与地上植被的关系。结果表明:1)放牧草地植物种数22种,围封草地植物种数30种,围封使土壤种子库植物种数增加了36%;2)放牧草地土壤种子库密度为16 149±1 900有效种子数·m^-2, 围封草地土壤种子库密度为20 657±3 342有效种子数·m^-2,比放牧草地增加了28%。放牧和围封草地种子库组成密度均以一年生植物为主(分别占99%和98%的比例),多年生植物所占的比例很小;3)放牧草地种子库的Shannon-Wiener指数和丰富度指数分别为0.836 3和4.954 9,明显小于围封草地的0.968 2和7.226 0,表明自由放牧导致物种多样性下降;4)放牧和围封草地土壤种子库密度与地上植被密度均存在显著的相关性(p<0.001)。表明了随着土壤种子库密度的增加, 地上植被密度随之增加,放牧草地地上植被密度78%的变异可归结为土壤种子库密度的变异, 而围封草地地上植被密度58%的变异可由土壤种子库密度的变异来解释。     

科尔沁沙地植被恢复演替进程中群落土壤种子库研究

研究了科尔沁沙地植被恢复演替进程中各群落土壤种子库种类组成、密度以及物种多样性等特征。主要结论是:①科尔沁沙地植被退化后的恢复演替是一种次生的中途恢复演替。演替各阶段土壤种子库密度为流动沙丘<半流动沙丘<固定沙丘,从流动到半流动沙丘阶段,土壤种子库密度平均增加了709%;从半流动到固定沙丘阶段,土壤种子库密度平均增加了393%。从流动到半流动沙丘阶段是土壤种子库密度的快速增长期。②植被恢复演替过程中,土壤种子库组成均以1年生草本植物为主(优势度为60.40%~91.83%),到演替中后期阶段,多年生草本植物的种类有所增加,但其所占比例仍很小。③演替各阶段群落种子库物种多样性指数分别为0.6616、0.7736、0.7281、1.0939、1.0648和0.9682,可见种子库物种多样性最高的群落并非是演替历史最大的群落。④恢复演替系列各阶段土壤种子库间的相似性系数都较大,在0.368~1.000范围之内,任一群落总是与其下一阶段最邻近的群落具有最高的相似性系数。     

高寒干旱草原披针叶黄华植物群落土壤种子库与地上植被的关系

以祁连山高寒干旱退化草地披针叶黄华(Thermopsis lanceolate)群落为研究对象,采取野外调查取样和室内分析相结合的方法,对群落土壤种子库与地上植被的关系进行了对比研究。结果表明:地上植被物种共调查出15种,土壤种子库检测出植物18种,地上植被阿尔泰针茅(S.krylovii)、赖草(A.dasystachys)和扁穗冰草等可食草以及不食草披针叶黄华和阿尔泰狗哇花(H.altaicus)优势度明显,其它物种不明显;土壤种子库与地上植被物种组成的相似性程度较低;土壤种子库与地上植被中可食草的物种数多于不食草,土壤种子库的物种数均不小于地上植被中的物种数,地上植被中存在而未在土壤种子库中检测到的可食草物种有阿尔泰针茅和赖草,土壤种子库中存在而地上植被中未被发现的物种有早熟禾(P.annua)、灰绿藜(C.glaucum)、碱韭(A.polyrhizum)、酸模(R.patientia)、独行菜(L.apetalum)和秦艽(G.macrophylla);原生禾草物种在可食草功能群中生物量所占比例较低,毒杂草物种生物量所占比例增加显著,而土壤种子库的数量百分含量较低;可食草与不食草的生物量在植被梯度下的变化呈显著负相关(r=-0.940,P=0.018),而土壤种子库密度变化无相关性;可食草生物量变化与其土壤种子库密度变化不相关,不食草生物量变化与其土壤种子库密度的增加呈显著正相关(r=0.902,P=0.036)。     

蔡家河湿地土壤种子库特征及其与地上植被和土壤因子的关系

为明确蔡家河湿地土壤种子库特征及其与地上植被和土壤因子的关系, 采用野外调查取样和室内萌发实验相结合的方法, 对芦苇群落, 野艾蒿群落和林下杂草群落3种不同植被类型的土壤种子库密度, 物种组成, 地上植被以及土壤理化性质进行了调查研究。结果表明: 蔡家河湿地3种植被类型的土壤种子库密度分别为(7725±1286) 粒•m-2, (2535±556) 粒•m-2和(5085±984) 粒•m-2; 物种数量分别为36种, 28种和39种。3种植被类型土壤种子库的物种丰富度以及多样性均高于地上植被, 并且3种植被类型间土壤种子库物种组成的相似性高于地上植被, 说明土壤种子库比地上植被具有更高的稳定性。芦苇群落的种子库密度, 物种多样性指数以及土壤种子库和地上植被物种组成的相似性均高于野艾蒿群落和林下杂草群落。土壤含水量与土壤有机质是影响土壤种子库物种组成的主要土壤因子, 在土壤水分以及有机质含量高的芦苇群落中含有大量湿生植物种子, 但在水分和有机质含量低的野艾蒿和林下杂草群落未发现柳叶菜(Epilobium hirsutum)、马先蒿(Pedicularis resupinata)、问荆(Equisetum arvense)等湿生植物的种子。因此, 蔡家河湿地土壤种子库已出现一定程度的退化, 芦苇群落土壤种子库可用作退化湿地植被恢复的种源, 在植被恢复时要满足种子萌发对土壤水分和有机质的需求。     

荒漠草地土壤微生物生物量和微生物熵对沙漠化的响应

采用空间序列代替时间演替的方法,分析宁夏中北部盐池县荒漠草地不同沙漠化阶段(荒漠草地、固定沙地、半固定沙地和流动沙地)土壤微生物生物量(SMB)和微生物熵(qMB)的变化特征及其影响因子.结果表明:从荒漠草地到流动沙地,土壤微生物生物量碳、氮、磷分别降低46.1%、80.8%和30.0%.随着荒漠草地沙漠化程度的加剧,土壤微生物熵碳(qMBC)、土壤微生物熵氮(qMBN)、土壤微生物熵磷(qMBP)均表现为荒漠草地>固定沙地>半固定沙地>流动沙地,而土壤-微生物化学计量不平衡性(C∶Nimb、C∶Pimb、N∶Pimb)基本呈增加趋势.土壤微生物生物量氮与C∶Nimb呈显著正相关,与N∶Pimb呈显著负相关;土壤微生物生物量磷与C∶Pimb呈显著正相关.冗余分析(RDA)显示,土壤生态化学计量(C∶N、C∶P)对微生物熵碳的负效应最明显.荒漠草地沙漠化显著影响土壤微生物生物量和微生物熵.     

基于地统计学的退化草地狼毒种群土壤种子库空间异质性

土壤种子库作为植被天然更新的物质基础,其空间异质性对于认识种群繁殖更新机制具有重要意义。利用野外调查和地统计学方法,设置4个草地退化梯度,研究了祁连山北坡狼毒种群土壤种子库空间异质性及其与地上植被的关系。结果表明:4个退化梯度草地土壤种子库的半变异函数模型均为非线性模型,表现为聚集分布;随着天然草地退化程度加剧,狼毒种群土壤种子库的密度与变程不断增大、基台值与结构比呈"U"型变化趋势,其中76.88%~93.75%的空间异质性是由空间自相关引起;在未退化和重度退化草地地上植被密度与土壤种子库密度呈正相关,在轻度和中度退化草地中地上植被密度与土壤种子库密度之间未呈现相关性。在草地退化演替过程中,土壤种子库空间分布主要受地上植被等结构性因素影响,而放牧等干扰因素也在一定程度上降低了空间自相关性。     

科尔沁沙地封育恢复过程中植物群落特征变化及影响因素

封育是退化沙地植被恢复与生态重建的重要措施, 理解长期处于封育状态下不同类型沙地植物群落特征变化及其影响因素有利于沙地植被恢复和生态重建。该文基于对科尔沁沙地长期封育的流动沙丘(2005年封育)、固定沙丘(1985年封育)和沙质草地(1997年封育)连续多年(2005-2017年)的植物群落调查, 结合土壤种子库、土壤养分以及气象数据, 分析了植物群落特征变化及其对环境变化的响应。研究结果表明流动沙丘植被盖度显著增加, 群落生物量和物种多样性年际间波动变化, 但无明显趋势; 固定沙丘植物群落存在逆行演替趋势, 具体表现为群落生物量、灌木和半灌木以及豆科优势度显著下降, 而一年生和多年生杂类草优势度显著增加; 沙质草地群落物种丰富度和多年生禾草优势度存在降低趋势, 并且一年生杂类草优势度明显高于其他功能群, 群落存在退化现象。3类沙地土壤种子密度变化不显著, 而种子丰富度在流动沙丘显著增加, 在固定沙丘和沙质草地有下降趋势, 土壤养分仅有有效氮和有效磷含量增加。回归分析结果表明气温和降水是影响年内生物量积累的主要因素, 但对年际间群落生物量和物种丰富度变化影响不大。除趋势对应分析结果显示土壤种子库与植物群落之间存在很高的相似性, 典型相关分析结果表明沙质草地植物群落与土壤养分紧密相关, 而固定沙丘群落主要与土壤水分紧密相关。综合以上结果可知, 封育33年的固定沙丘群落和封育21年的沙质草地群落都存在退化现象, 而封育11年的流动沙丘群落正在缓慢恢复, 因此封育年限的设定对退化沙地植被恢复至关重要, 封育时间过长不仅不利于植物群落恢复, 反而会使群落发生逆行演替, 建议封育年限的设定应综合考虑植被退化程度、土壤养分状况、土壤种子库基础以及气候条件等因素的影响。     

科尔沁沙地封育恢复过程中植物群落特征变化及影响因素

封育是退化沙地植被恢复与生态重建的重要措施,理解长期处于封育状态下不同类型沙地植物群落特征变化及其影响因素有利于沙地植被恢复和生态重建。该文基于对科尔沁沙地长期封育的流动沙丘(2005年封育)、固定沙丘(1985年封育)和沙质草地(1997年封育)连续多年(2005–2017年)的植物群落调查,结合土壤种子库、土壤养分以及气象数据,分析了植物群落特征变化及其对环境变化的响应。研究结果表明流动沙丘植被盖度显著增加,群落生物量和物种多样性年际间波动变化,但无明显趋势;固定沙丘植物群落存在逆行演替趋势,具体表现为群落生物量、灌木和半灌木以及豆科优势度显著下降,而一年生和多年生杂类草优势度显著增加;沙质草地群落物种丰富度和多年生禾草优势度存在降低趋势,并且一年生杂类草优势度明显高于其他功能群,群落存在退化现象。3类沙地土壤种子密度变化不显著,而种子丰富度在流动沙丘显著增加,在固定沙丘和沙质草地有下降趋势,土壤养分仅有有效氮和有效磷含量增加。回归分析结果表明气温和降水是影响年内生物量积累的主要因素,但对年际间群落生物量和物种丰富度变化影响不大。除趋势对应分析结果显示土壤种子库与植物群落之间存在很高的相似性,典型相关分析结果表明沙质草地植物群落与土壤养分紧密相关,而固定沙丘群落主要与土壤水分紧密相关。综合以上结果可知,封育33年的固定沙丘群落和封育21年的沙质草地群落都存在退化现象,而封育11年的流动沙丘群落正在缓慢恢复,因此封育年限的设定对退化沙地植被恢复至关重要,封育时间过长不仅不利于植物群落恢复,反而会使群落发生逆行演替,建议封育年限的设定应综合考虑植被退化程度、土壤养分状况、土壤种子库基础以及气候条件等因素的影响。     

内蒙古锡林郭勒克氏针茅退化草原土壤种子库特征

以内蒙古锡林郭勒地区克氏针茅(Stipa krylovii)草原不同退化等级群落为对象,研究克氏针茅退化草原可萌发土壤种子库特征.结果表明,随着草原退化程度的增加,不论是土壤总种子库还是持久土壤种子库,组成和密度均明显下降, 重度和极度退化草原土壤总种子库密度下降至仅为轻度退化草原的46.8%和11.1%.代表土壤总种子库的4月份取样, 轻度、中度、重度和极度退化草原各样地0～9 cm土壤种子库密度分别为2800、1278、1311和311粒·m-2;代表持久土壤种子库的6月底取样,4个样地土壤种子库密度分别为1667、967、334和167粒·m-2.多数植物土壤种子库主要分布在0～6 cm土层,各样地种子库密度随土壤深度的增加而减少,轻度、中度、重度和极度退化草原4月份0～6 cm土层种子库分别占总种子库(0～9 cm)的98.4、96.5、95.8 和85.7%.不同退化等级草原地上植被与土壤种子库的Sorensen相似性指数介于0.24～0.48.     

元江流域干热河谷灌草丛土壤种子库与地上植物群落的物种组成比较

土壤种子库与地上植被之间的关系和相似性是长期争议的群落生态学问题之一。本研究旨在通过比较元江流域干热河谷典型灌草丛群落与其土壤种子库的物种组成, 探讨土壤种子库与地上植物群落存在怎样的相似性关系。在元江干热河谷上、中、下游选取典型灌草丛群落, 采用典型样地调查法进行植物群落调查, 同时在样方内采集0-5 cm、5-10 cm、10-15 cm三层土壤样品, 采用萌发实验研究土壤种子库的种子数量和物种组成, 并与地上植物群落进行比较。结果表明: (1)全部调查样方的地上植被中共包含种子植物76种, 隶属于25科64属, 主要集中在豆科、禾本科、菊科、大戟科, 群落物种组成以多年生草本为主、灌木为辅; (2)土壤种子库中共发现33种植物, 隶属于14科32属, 以旱生型禾本科、豆科、菊科物种为主; (3)土壤种子库中的植物种子密度在表层土壤中最高, 随着土层的加深而递减; (4)各样方的土壤种子库与地上群落共有物种数较少, 相似性较低; 土壤种子库密度与地上群落的种群密度没有显著的相关性。总体而言, 本研究发现元江流域干热河谷典型灌草丛群落其土壤种子库与地上群落之间没有显著的相关性, 并且地上群落和土壤种子库都有外来入侵种类。     

阿拉善荒漠不同密度白沙蒿人工种群生长、繁殖与土壤水分的关系

研究了阿拉善荒漠飞播建植的不同密度人工白沙蒿 (Artemisia sphaerocephala)种群的生长、繁殖与土壤水分的关系 ,主要结果是 :(1)不同密度白沙蒿人工种群的生长与繁殖特征存在明显差异 ,它反映在白沙蒿单株地上生物量、根量、生殖枝数和种子产量随着种群密度的增加而下降。 (2 )不同密度白沙蒿种群的存活率明显不同 ,当种群密度超过 3.1株 /m2时 ,个体植物生长发育不良 ,并出现密度制约死亡 (自疏 )现象 ,植株死亡率急剧上升。(3)不同密度白沙蒿草地不同深度土壤含水量存在明显差异 ,特别是 0～ 2 0和 2 0～ 4 0 cm两个土层的土壤含水量随种群密度的增加显著下降 ,与水资源容量相适应的白沙蒿种群密度约为 2 .1株 /m2 ,在该密度下土壤水分含量基本上能够满足白沙蒿的生理生态需水。 (4 )回归分析显示 ,白沙蒿单株地上生物量与0～ 2 0和 2 0～ 4 0 cm的土壤含水量呈显著正相关 ,而与 4 0 cm以下土层的土壤含水量无显著相关性 ,表明白沙蒿种群的生长主要受 0～ 4 0 cm土层土壤含水量的影响     

毛乌素沙地景观格局变化研究

通过对毛乌素沙地不同时期的景观分类和制图以及景观格局计算,分析了50年代到90年代毛乌素沙地景观动态与景观格局变化的特征和模式。研究表明,50年代以来,毛乌索沙地景观发生了巨大变化,流动沙地、半固定沙地面积大幅度增加,固定沙地面积迅速减少,农田面积明显增加,草原、柳湾和盐湿低地等面积显著减少。50年代时,整个景观以流动沙地和固定沙地占优势,而90年代,则以流动沙地占绝对优势。伴随着荒漠化的发展,各种景观要素类型之间相互转化,景观格局发生显著变化。固定沙地面积减少伴随着斑块的破碎化,大型斑块数量减少,小型斑块数量增加;流动沙地面积增加的同时,一方面,较小的斑块不断联合形成更多的大型斑块,另一方面,流动沙地不断向固定、半固定沙地内部渗透,形成更多的小型斑块,使整个景观更加破碎。不合理的人类活动是荒漠化扩展及景观格局发生显著变化的主要驱动因素。     

Scale‐dependence of vegetation‐environment relationships in semi‐natural grasslands

Questions: Which environmental and management factors determine plant species composition in semi‐natural grasslands within a local study area? Are vegetation and explanatory factors scale‐dependent? Location: Semi‐natural grasslands in Lærdal, Sognog Fjordane County, western Norway. Methods: We recorded plant species composition and explanatory variables in six grassland sites using a hierarchically nested sampling design with three levels: plots randomly placed within blocks selected within sites. We evaluated vegetation‐environment relationships at all three levels by means of DCA ordination and split‐plot GLM analyses. Results: The most important complex gradient determining variation in grassland species composition showed a broad‐scale relationship with management. Soil moisture conditions were related to vegetation variation on block scale, whereas element concentrations in the soil were significantly related to variation in species composition on all spatial scales. Our results show that vegetation‐environment relationships are dependent on the scale of observation. We suggest that scale‐related (and therefore methodological) issues may explain the wide range of vegetation‐environment relationships reported in the literature, for semi‐natural grassland in particular but also for other ecosystems. Conclusions: Interpretation of the variation in species composition of semi‐natural grasslands requires consideration of the spatial scales on which important environmental variables vary.     

Can grassland plant communities be preserved on road and railway verges?

Abstract. Semi‐natural grasslands are a threatened biotope type in many countries. Typical grassland plant species are adapted to continuous grazing or mowing that keeps the environment open. With the decline in grassland area, these species are ever more reliant on alternative habitats such as road verges. To find out whether plant communities comparable to those of semi‐natural grasslands can be maintained on modern road and railway sides, the vegetation of 92 grasslands and 90 road and railway verges was studied. These biotope types were compared with each other according to their community structure, total number of species, number of grassland species and restricted‐range diversity. Further study of the vegetation of road and railway verges was carried out in order to identify the treatments and environments which are most likely to support diverse plant communities. The species number and the restricted‐range diversity proved to be higher next to roads and railways than on grasslands. Grassland species were, however, most abundant on grasslands. Furthermore, the community structure of these biotope types was totally divergent. In their present state, road and railway verges are not a substitute for semi‐natural grasslands. Nevertheless, the occurrence of grassland species in verges may be enhanced by a suitable mowing regime, by giving up the use of de‐icing salt and herbicides and by allowing natural establishment of vegetation on the verges.     

鄱阳湖沙地蔓荆灌丛沙堆形态特征及空间分布格局

目前灌丛沙堆研究主要集中在干旱半干旱区的沙质草原和沙漠边缘,对亚热带湿润区灌丛沙堆的形成、演变过程并不清楚。以鄱阳湖沙地为研究区,通过样方调查和地统计学的方法,研究不同沙化程度下蔓荆灌丛沙堆的形态特征及分布格局。结果表明:鄱阳湖沙地蔓荆沙堆的形态以盾形为主,其冠幅变化幅度为1.2—18.2 m~2,固定和半固定沙地显著高于流动沙地;对灌丛沙堆的形态参数来说,其长轴与短轴在固定和半固定沙地上呈极显著的线性相关关系,流动沙地上呈二次函数关系;半固定和流动沙地上沙堆底面积与沙堆高度呈二次函数关系(r0.6);3种类型沙地上灌丛底面积与沙堆体积之间极显著线性相关,其中半固定沙地线性函数的斜率最大;除固定沙地的沙堆高度和半固定沙地的灌丛高度外,3种沙地上蔓荆灌丛与沙堆的其他形态参数间均极显著相关,说明随着沙地的固定,蔓荆灌丛有利于沙堆水平尺度的增长;3种沙地上蔓荆沙堆均呈随机分布。     

Hard times for Italian coastal dunes: insights from a diachronic analysis based on random plots

Multi-year temporal studies are invaluable tools for monitoring changes in biodiversity through time. However, their applications in coastal ecosystems are still scarce. We investigated temporal trends in coastal dunes analyzing a set of 858 randomly-sampled georeferenced relevés performed between 2002 and 2015 along Central Italy’s sandy coastlines. Specifically, we explored changes in species richness and cover of targeted sandy habitats, we investigated trends in the cover of selected psammophilous native species and we assessed patterns of invasion by means of regression techniques. We observed a significant decrease in species richness and cover of the dune grasslands habitat. The species-level analysis confirmed a negative trend for two characteristic species of dune grasslands, Cutandia maritima and Medicago littoralis, while revealing a similar decline for Crucianella maritima and for Ammophila arenaria subsp. australis, key species of mobile dunes. The most striking trends emerged analyzing patterns in the cover of an invasive alien species, Carpobrotus sp., which showed a concerning increase in shifting dunes. In conclusion, our analyses reveal concerning changes involving dune grasslands, and at the same time hint at “early warnings” of degradation processes traceable in shifting dunes.     

Acidification of sandy grasslands – consequences for plant diversity

Questions: (1) Does soil acidification in calcareous sandy grasslands lead to loss of plant diversity? (2) What is the relationship between the soil content of lime and the plant availability of mineral nitrogen (N) and phosphorus (P) in sandy grasslands? Location: Sandy glaciofluvial deposits in south‐eastern Sweden covered by xeric sand calcareous grasslands (EU habitat directive 6120). Methods: Soil and vegetation were investigated in most of the xeric sand calcareous grasslands in the Scania region (136 sample plots distributed over four or five major areas and about 25 different sites). Environmental variables were recorded at each plot, and soil samples were analysed for exchangeable P and N, as well as limestone content and pH. Data were analysed with regression analysis and canonical correspondence analysis. Results: Plant species richness was highest on weakly acid to slightly alkaline soil; a number of nationally red‐listed species showed a similar pattern. Plant species diversity and number of red‐listed species increased with slope. Where the topsoil had been acidified, limestone was rarely present above a depth of 30 cm. The presence of limestone restricts the availability of soil P, placing a major constraint on primary productivity in sandy soils. Conclusions: Acidification of sandy grasslands leads to reduced abundance of desirable species, although the overall effect is rather weak between pH 5 and pH 9. Slopes are important for high diversity in sandy grasslands. Calcareous soils cannot be restored through shallow ploughing, but deep perturbation could increase the limestone content of the topsoil and favour of target species.     

沙质草原沙漠化过程中植被演替研究现状和展望

在综述了我国半干旱地区沙质草地沙漠化过程中植被演替研究现状,提出了目前沙地植被演替研究中存在的主要问题和今后的研究工作。指出,①沙地植被演替的最大特点就是沙质地表基质的流动性和风沙活动伴随着植被演替的各阶段,研究中应考虑近地表风沙流的影响;②在干扰对生态系统影响越来越大的今天,沙地植被的演替序列往往出现一些随机性和不规则性,应加强对沙地植被演替序列的非线性和演替顶极的多元性、多样性的研究;③应继续从生理生态、种群生态、群落生态以及生态系统生态等不同水平层面上深入研究演替过程中植物种的替代机制,还应加强沙地土壤种子库与地上植被动态耦合、种子岛效应等的研究,以及沙地植被演替趋势和速率等的预测。     

A conceptual model of plant community changes following cessation of cultivation in semi‐arid grassland

Question: Can vegetation changes that occur following cessation of cultivation for cereal crop production in semi‐arid native grasslands be described using a conceptual model that explains plant community dynamics following disturbance? Location: Eighteen native grasslands with varying time‐since‐last cultivation across northern Victoria, Australia. Methods: We examined recovery of native grasslands after cessation of cultivation along a space for‐ time chronosequence. By documenting floristic composition and soil properties of grasslands with known cultivation histories, we established a conceptual model of the vegetation states that occur following cessation of cultivation and inferred transition pathways for community recovery. Results: Succession from an exotic‐dominated grassland to native grassland followed a linear trajectory. These changes represent an increase in richness and cover of native forbs, a decrease in cover of exotic annual species and little change in native perennial graminoids and exotic perennial forbs. Using a state‐and‐transition model, two distinct vegetation states were evident: (1) an unstable, recently cultivated state, dominated by exotic annuals, and (2) a more diverse, stable state. The last‐mentioned state can be divided into two further states based on species composition: (1) a never‐cultivated state dominated by native perennial shrubs and grasses, and (2) a long‐uncultivated state dominated by a small number of native perennial and native and exotic annual species that is best described as a subset of the never‐cultivated state. Transitions between these states are hypothesized to be dependent upon landscape context, seed availability and soil recovery. Conclusions: Legacies of past land use on soils and vegetation of semi‐arid grasslands are not as persistent as in other Australian communities. Recovery appears to follow a linear, directional model of post‐disturbance regeneration which may be advanced by overcoming dispersal barriers hypothesised to restrict recovery.     

Natural Establishment of Specialist Plant Species after Topsoil Removal and Soil Perturbation in Degraded Calcareous Sandy Grassland

Specialist plant species in calcareous sandy grasslands are threatened by acidification and high nutrient levels in the topsoil. We investigated whether topsoil removal and soil perturbation in degraded sandy grasslands could lead to establishment of specialist species belonging to the threatened xeric sand calcareous grassland habitat. Restoration actions performed in 2006 resulted in increased soil pH and reduced nitrogen availability. We found early colonisztion of the perennial key species Koeleria glauca after both deep perturbation and topsoil removal, and high seedling establishment in topsoil removal plots 5 and 6 years following the restoration treatment (2011–2012). After topsoil removal, overall vegetation composition in 2012 had developed toward the undegraded community, with target species accounting for 20% of the community after topsoil removal, compared to 30% in the undegraded vegetation, and less than 1% in untreated controls. Deep perturbation led to 7% target species, while there were almost no effects of shallow perturbation 6 years following treatment. These results demonstrate that topsoil removal can promote colonization of target species of calcareous sandy grassland and highlights the importance of considering the regeneration niche for target species when implementing restoration measures .