岷江冷杉林林窗小气候及其对不同龄级岷江冷杉幼苗生长的影响

对川西亚高山原始岷江冷杉(Abies faxoniana)林林窗内和林冠下小气候及岷江冷杉幼苗生长和生物量进行了两个生长季的连续观测。结果表明:6月林窗内与林冠下太阳辐射的日积累量没有显著性差异,而7~8月的日积累量则有显著性差异。整个生长季节,林窗内太阳辐射的平均积累量为8.10×MJ·m^-2,而林冠下太阳辐射的平均积累量为5.02×MJ·m^-2,两个位点太阳辐射积累量的显著差异主要来自7~8月日积累量的不同;林窗内5和15 cm层土壤的日平均温度比林冠下相应深度分别高2.1和2.7℃,差异显著。林窗内和林冠下3~8年岷江冷杉幼苗高增长率分别为1.2±0.3 cm·a^-1和1.1±0.3 cm·a^-1,差异不显著;9~20年岷江冷杉幼苗高增长率分别为6.2±2.4 cm·a^-1和3.0±0.9 cm·a^-1,差异显著。林窗内岷江冷杉幼苗根、主茎和总生物量与林冠下幼苗根、主茎和总生物量没有显著差异。不同年龄的岷江冷杉幼苗叶和侧枝生物量积累对林窗微环境的响应不同。     

风车草和香根草在人工湿地中迁移养分能力的比较研究

为研究风车草(Cyperus alternifolius)和香根草(Vetiveria zizanioides)迁移养分的能力,建立17.0m²风车草潜流式人工湿地和13.3 m²香根草潜流式人工湿地处理猪场废水,在四个季节末测定植物生物量和组织氮、磷、铜、锌含量.结果表明,香根草地下部生物量大于风车草,地上部生物量则是风车草大于香根草.风车草年地上部收获量为3406.47 g·m^-2,比香根草的1483.88 g·m^-2高2.3倍;风车草的氮含量为22.69 mg·g^-1,比香根草的15.44 mg·g^-1高7.25 mg·g^-1;风车草的磷含量为6.09 mg·g^-1,比香根草的5.47 mg·g^-1高0.62 mg·g^-1.植株含铜、锌量风车草略比香根草高.风车草每年迁移N 68.72 g·m^-2和P18.49 g·m^-2,香根草迁移N 8.93 g·m^-2和P 3.69 g·m^-2.风车草人工湿地每年由植物迁移的氮、磷、铜、锌比香根草高4～7倍.     

不同盆栽雷竹苗地下茎生长特征

为阐明竹子种群构建与维持机制，探究小径笋用竹种雷竹(Phyllostachys praecox C. D. Chu et C. S. Chao ‘Prevernalis’)从单株母竹扩繁为分株系统，进而构建竹子种群的过程，开展了不同年龄母竹、不同覆盖竹林土壤控制性盆栽实验，比较分析了盆栽竹苗地下茎形态、生物量及芽库等生长特征。结果表明：盆栽苗地下茎生长形态表现为2年生母竹盆栽苗平均发鞭长度为(666.58±111.75) cm·盆^-1,平均鞭节数量为(342±44)个·盆^-1,明显高于1年生母竹盆栽苗的(354.25±136.64) cm·盆^-1和(216±88)个·盆^-1,但其平均鞭径为(0.77±0.07) cm,低于1年生母竹盆栽苗的(1.07±0.12) cm;盆栽苗地下茎生物量积累表现为1年生母竹盆栽苗地下茎生长侧重于竹鞭生物量积累，2年生母竹盆栽苗地下茎生长侧重于竹根生物量积累；盆栽苗地下茎芽库生长特征表现为2年生母竹盆栽苗芽库数量整体高于1年生母竹盆栽苗，尤其总芽数量和休眠芽数量分别达...     

秋季太湖梅梁湾蓝藻的原位增殖与垂直分布

通过细胞分裂频率法对秋季太湖梅梁湾蓝藻(微囊藻)原位生长速率进行了测定, 发现微囊藻白天的细胞分裂频率高于夜间, 水柱表层微囊藻的原位生长速率最高; 湖体微囊藻的原位生长速率为0.09-0.16 d^-1, 围隔微囊藻的原位生长速率为0.20-0.35 d^-1; 蓝藻的原位生长速率受光照、温度、营养盐与生物量等因素的影响。蓝藻生物量、群体粒径组成、捕光色素及其组成等在水柱中均有垂直分布差异, 依赖于混合强度、浮力调节与群体粒径的垂直迁移或是蓝藻为了获取更为合适的光照条件。     

杉木种子萌发及幼苗生长对光强的响应

设置不同光强梯度(透光率分别为100%、40%、20%、10%和5%,光照强度PPFD分别为201.3、77.0、37.5、19.2、9.8 μmol·m^-2·s^-1),研究光对杉木种子萌发和幼苗早期生长的影响,分析杉木种子萌发、幼苗存活、生长、形态响应、生物量积累及其分配格局对不同光环境的响应策略.结果表明: 杉木种子的萌发率、存活率、建植率和萌发指数在不同光强梯度下均有显著差异,且40%的透光率是种子最适萌发条件,萌发率最高,而全光照下存活率和建植率最高;随光照强度的减弱,杉木幼苗茎长增大,根长、子叶长、子叶厚、真叶数呈降低趋势,而基径在各光照强度间无显著差异;总生物量、根生物量、茎生物量、叶生物量均表现为全光照下最大.随着光照强度的减弱,光合组织与非光合组织生物量比、叶生物量比呈降低趋势,茎生物量比呈增加趋势,根冠比和根生物量比无显著差异.弱光环境促进杉木种子萌发,不利于杉木幼苗存活和生长.在弱光环境下,杉木幼苗通过增大茎生物量来提高对弱光环境的耐受力.     

阔叶丰花草与2种菊科植物之间的化感作用

阔叶丰花草是一种适用于华南果园生草控草的一年生植物。为了揭示阔叶丰花草与果园常见杂草之间的竞争关系,研究了阔叶丰花草与两种菊科植物(胜红蓟和白花鬼针草)之间的化感作用。结果表明: 10～50 mg·mL^-1的阔叶丰花草水浸液处理显著抑制胜红蓟和白花鬼针草种子萌发和幼苗生长,胜红蓟和白花鬼针草的胚根长分别比对照降低57.4%～90.2%和57.3%～62.3%。胜红蓟和白花鬼针草水浸液对阔叶丰花草种子萌发也有较强的化感效应,在50 mg·mL^-1的浓度处理下,阔叶丰花草种子几乎不能萌发。经10 mg·mL^-1阔叶丰花草水浸液处理30 d后,胜红蓟播种苗的净光合作用、株高和生物量分别比对照降低15.2%、20.6%和41.5%,白花鬼针草播种苗的生物量也出现下降趋势;但胜红蓟和白花鬼针草水浸液处理对阔叶丰花草播种苗生长的影响均不显著。在混种条件下,阔叶丰花草的生物量与单种的水平相当,胜红蓟和白花鬼针草的生物量则分别比单种降低86.0%和27.1%。与胜红蓟和白花鬼针草相比,阔叶丰花草的化感优势在于除了能抑制对方的种子萌发,也能抑制其植株生长。     

温度、光照、盐度及pH对旋链角毛藻生长的影响

以旋链角毛藻(Chaetoceros curvisetus)为实验材料,采用f/2培养基,设置了2个盐度梯度(25和30),4个温度梯度(15℃、20℃、25℃和30℃),3个光照梯度(29.3μE·m^-2·s^-1、78.12μE·m^-2·s^-1和126.95μE·m^-2·s^-1),3个pH梯度(7.0、7.5和8.3)的处理,并计算了不同培养条件下藻细胞在指数生长期的比生长率,比较研究了温度、光照、盐度及pH等环境因子对旋链角毛藻生长的影响。进一步进行盐度、光照的两因素正交实验,并检验两者的交互作用。其中盐度设25、30两个水平,光照强度设29.3μE·m^-2·s^-1、78.12μE·m^-2·s^-1和126.95μE·m^-2·s^-1三个水平。实验结果表明,温度为20℃,光照为78.12μE·m^-2·s^-1,盐度为25,pH在8.3时是旋链角毛藻的最佳生长条件,此时最大比生长率和生物量达到最高,温度对藻类生长的影响比盐度,光照,pH的要明显得多,实验中其他处理均会抑制其生长。     

干旱胁迫下华北驼绒藜种子大小及苞片对萌发和幼苗生长的影响

干旱是影响荒漠区植物种子萌发和幼苗生长的关键因素。以多年生强旱生半灌木华北驼绒藜为对象,研究了不同干旱程度(0、100、200、300和400 g·L^-1 PEG6000)下,种子大小及苞片有无对种子萌发及幼苗生长的影响。结果表明: 干旱胁迫显著抑制了种子萌发和幼苗地上部的生长。100和200 g·L^-1 PEG6000处理显著增加了幼苗根长,而300和400 g·L^-1 PEG6000处理显著降低了幼苗根长。与无苞片相比,有苞片使种子的发芽率显著降低12%,发芽指数显著降低50.5%,幼苗的地上部长度显著增加20.8%,幼苗根长显著增加6.3%。种子大小对种子发芽指数无显著影响,但与小种子相比,大种子发芽率显著提高3%,幼苗的地上部长度显著增加20.5%,幼苗根长显著增加33.0%。在干旱条件下,苞片能延缓种子的萌发速度,种子大小能影响后代的存活几率,二者共同影响华北驼绒藜对极端干旱环境的适应性。     

不同基质对四种沉水植物生长的影响

通过模拟试验,研究了太湖五里湖主要3种基质类型(沙石、生土、湖泥)对4种沉水植物(苦草、马来眼子菜、金鱼藻、轮叶黑藻)生长的影响. 结果表明,生长于沙石、生土、湖泥上的苦草和马来眼子菜平均生物量分别为72.37、126.25、134.10 g和40.0、72.10、90.70 g,而金鱼藻和轮叶黑藻平均生物量分别为0.27、6.58、73.64 g和0.17、3.26、84.42 g,说明湖泥较适合这四种沉水植物生长. 苦草和马来眼子菜对相对贫瘠的生土有较强的适应性,而金鱼藻和轮叶黑藻不适宜在生土中生长. 生长在沙石上的4种沉水植物的生物量和株高最低,其中金鱼藻和轮叶黑藻于试验期间死亡.苦草的根系活力(TTC)低于马来眼子菜,生长在沙石、生土、湖泥中苦草的根系活力分别为0、(0.16±0.05) mg·g^-1·h^-1和(0.36±0.33) mg·g^-1·h^-1,而马来眼子菜则分别为(2.68±0.34) mg·g^-1·h^-1、(2.30±0.77) mg·g^-1·h^-1、(5.24±0.67) mg·g^-1·h^-1. 叶绿素、质膜透性和丙二醛(MDA)的测定结果进一步证明了以上结论.此外,苦草、马来眼子菜和轮叶黑藻对基质有较强的沁氧能力,其大小顺序为苦草＞马来眼子菜＞轮叶黑藻.     

小五台山森林落叶层对天然青杨种群更新方式的影响

通过野外样方调查和室内种子萌发实验两种方法, 对河北小五台山天然青杨(Populus cathayana)种群的更新方式进行了研究, 以揭示落叶层的化感作用和机械阻挡作用对青杨种子萌发的干扰机理。结果显示: 1)种群样方中的幼苗都为无性繁殖的克隆分株, 种子繁殖的幼苗年自然存活率为0%; 2)落叶层对种子幼苗的存活率有显著影响。50 mg·mL^-1浓度的落叶水浸液可使青杨种子发芽率降低41%, 使主根长度减少95%, 100 mg·mL^-1浓度的落叶水浸液则完全抑制种子萌发; 单层和多层落叶对种子萌发产生的影响差异不显著, 都能完全阻碍种子的根系正常生长, 导致幼苗脱水干枯死亡。结果表明, 在高海拔山区的青杨天然林中, 由于不断积累的落叶层通过化感作用和机械阻挡作用严重影响种子的萌发、定根以及正常生长, 从而导致种子更新的途径受阻, 而只能通过无性繁殖来完成正常的种群更新。     

蓝藻胁迫条件下不同基质类型对苦草和伊乐藻生长的影响

为探讨蓝藻胁迫条件下沉水植物生长与基质营养含量的关系,研究了添加相同含量蓝藻后2 种不同基质(较贫瘠的黄色粘土和较肥沃的黑色淤泥)对苦草和伊乐藻2 种沉水植物生长的影响。结果表明:与伊乐藻相比,苦草的生物量在粘土条件下高于淤泥条件,而基质类型对伊乐藻生物量没有显著影响;苦草的最大叶片长度(用于表征株高)、无性系新株数目及其干物质重和伊乐藻的株高、分株数目和分枝干物质重也是在粘土条件下高于淤泥条件;苦草的最大根长在粘土条件下显著高于淤泥条件(p<0.05)。研究结果表明在蓝藻胁迫的条件下,高营养含量的基质不利于沉水植物的生长,并且对根生型沉水植物苦草的影响要大于假根沉水植物伊乐藻。     

不同盐度对苦草生理特征的影响

沉水植物耐盐性研究越来越受到人们高度重视。在室内模拟条件下,水体盐度设为2、3、4、5、6和8,及不加盐卤的对照组(记为0),每24 h测定苦草(Vallisneria natans)叶片叶绿素含量,SOD、POD和CAT 3种抗氧化酶活性,MDA含量及呼吸强度。结果表明:叶绿素a、叶绿素b含量和CAT酶活性随盐度增加呈降低趋势;SOD、POD酶活性、MDA含量随盐度增加呈先升后降趋势;盐度为2和3时叶绿素含量、抗氧化酶酶活性、MDA含量和呼吸强度与对照组相比差异性不显著(P>0.05),苦草生长状态较其它处理组好;盐度为4时,所测叶绿素含量、抗氧化酶活性和呼吸强度与对照组相比差异性显著(P<0.05),叶绿素含量明显降低,抗氧化酶活性升高,表现出了明显的抗逆性,呼吸强度降低;盐度为5、6和8时与对照组相比,苦草生长状态较差,并逐步枯萎,第4 d死亡。因此苦草可应用于盐度低于3水体中沉水植被的恢复与重建。     

冷层积和室温干燥贮藏对河西走廊8种荒漠植物种子萌发的影响

不同贮藏和处理条件对不同植物的种子萌发有不同的影响。该文以河西走廊干旱半干旱区8种荒漠植物为研究对象, 探讨了种子经历不同冷层积(4 ℃、-5 ℃、-26 - 10 ℃)和室温干燥贮藏后的萌发响应。研究结果表明: 1)冷层积可使种子萌发率提高、保持不变或降低, 冷层积的有效温度下界可降至-5 ℃或更低。4 ℃和-5 ℃的冷层积使多裂骆驼蓬(Peganum multisectum)和驼蹄瓣(Zygophyllum fabago)种子的萌发率升高、萌发速度加快, 冬季过低的气温以及较大的温度变幅(-26 - 10 ℃)使部分种子萌发率升高。3种冷层积和室温干燥贮藏使黑果枸杞(Lycium ruthenicum)种子萌发率达到90%-100%。唐古特白刺(Nitraria tangutorum)、甘草(Glycyrrhiza uralensis)、苦马豆(Sphaerophysa salsula)种子经过3种冷层积和室温干燥贮藏后萌发率变化较小。中亚紫菀木(Asterothamnus centrali-asiaticus)种子对各种贮藏条件的响应不明显, 部分种子活性丢失。刺沙蓬(Salsola ruthenica)种子扩散时有较高的萌发率(84%), 经-5 ℃和-26 - 10 ℃冷贮藏后, 种子仍具有较高的萌发率, 经4 ℃冷贮藏后几乎不萌发, 大部分种子活性丢失。2)不同物种的种子经过不同方式的贮藏后, 萌发对温度的响应不同。经冷层积后的多裂骆驼蓬种子萌发响应于恒温, 驼蹄瓣和刺沙蓬种子萌发更加响应于变温条件; 多数植物种子在变温培养下萌发速度慢于恒温下。     

潜水式生态介质箱对黑臭水体的修复效果

生态浮床作为一种常规治理技术得到了广泛使用,但其只能修复表层富氧水体,对下层缺氧水体的修复能力有限.本研究针对实际黑臭水体的修复需要,设计了潜水式生态介质箱(潜水组),并以传统的生态浮床(浮床组)为对照进行对比试验,研究修复前后黑臭水体的水质变化,考察了水生植物的生长状况及N、P积累能力.结果表明:随着修复时间的延长,两组处理对各污染物的去除率均逐渐升高,其中潜水组去除全氮(TN)、铵氮(NH4^+-N)、全磷(TP)的能力优于浮床组,但其去除化学需氧量(CODMn)的能力稍逊;潜水组植物(苦草)的生长状况优于浮床组植物(菖蒲),且苦草对水体中TN、TP的吸收积累能力和去除贡献率均优于菖蒲;此外,苦草的质膜透性、丙二醛和叶绿素含量均低于菖蒲,说明苦草更适于在黑臭水体中生长,该潜水式生态介质箱是新型的一体化原位修复装置,更适用于黑臭水体的修复实践.     

Effects of Moisture, Temperature, and Time on Seed Germination of Five Wetland Carices: Implications for Restoration

Successful restoration of sedge meadow wetlands is limited by lack of information regarding reintroduction of sedge (Carex) propagules. While restoration from seed is common for prairie restorations, little is known about the germination characteristics of many wetland plants, including sedges. We present the results of a 2.5-year study on seed germination and viability for five species of Carex common to sedge meadow and prairie pothole wetlands in temperate North America. Seed storage and germination conditions were investigated to determine the optimum combination for maintaining seed viability and stimulating germination rates over time. Seeds were germinated under seven different temperature and three moisture regimes after storage for 4, 10, and 14 months under one of four different storage regimes (dry-warm, dry-cold, moist-cold, and wet-cold). The efficacy of short-term wet-cold stratification to stimulate germination of 2.5-year-old seed after long-term dry storage was also investigated. Carex stricta, Carex comosa, and Carex lacustris showed the greatest germination response after wet-cold or moist-cold storage, while Carex lasiocarpa and Carex rostrata showed similar rates of germination after either wet-cold or dry-warm storage. Wet-cold long-term storage was associated with a high level of viability in all five species after 2.5 years. Viability and germination rates were reduced in Carex stricta, Carex comosa, and Carex lasiocarpa after long-term dry-cold storage. Germination rates of seeds stored dry for 2.5 years are not improved by short-term wet-cold treatment in any species tested. Carex seeds should be stored under wet-cold conditions to maintain seed viability over time, thus increasing the likelihood of seeding success for sedge meadow restoration.     

Metabolic Changes in Partially Dormant Wheat Seeds during Storage

Changes in germination, seedling growth, respiration, response to applied gibberellic acid, and glucose-U-¹⁴C utilization were investigated in partially dormant wheat (Triticum aestivum L., Pa 151 × 107) seeds which were stored under various conditions for periods up to 1 year. Only seeds stored at −20 C and 12.4% moisture maintained partial dormancy, which was overcome by germinating in 10⁻³m gibberellic acid. Germination and seedling growth of seeds stored at 25 C and 15.1% moisture declined within 12 weeks and the percentage of seeds infected with storage fungi increased. Gibberellic acid produced faster growing seedlings, particularly from those seeds with partial dormancy, but did not overcome growth reduction which was caused by deterioration. Seeds kept under laboratory conditions (B), 25 C and 12.1% moisture (C), and 25 C and 15.1% moisture (D) for 12 weeks utilized 35, 55, and 80% less glucose, respectively, than those stored at −20 C and 12.4% moisture (A). Seeds stored under B and C consistently had higher germination, growth, and respiratory rates than seeds from A and D. The respiratory rate declined as deterioration advanced under D. Respiratory quotients ranged from 1.0 for seeds stored under A to 1.6 for seeds stored under D.     

Development of new formulations of Bacillus subtilis for management of tomato damping-off caused by Pythium aphanidermatum

Formulations of a strain of Bacillus subtilis AUBS-1 inhibitory to the growth of the damping-off pathogen, Pythium aphanidermatum, were developed for seed treatment. The formulations included a talc-based powder, lignite-based powder, lignite+fly ash-based powder, wettable powder, bentonite-paste, polyethylene glycol (PEG) paste and a water-dispersible tablet. Formulations were stored at room temperature for 2 years and frequently sampled to test their shelf life. Populations of bacteria in the formulations were stable for up to 2 years storage at room temperature (28°C). Viability of propagules in lignite, lignite+fly ash, bentonite paste, wettable powder and water dispersible tablet formulations was 100% for up to 1 year. However, the viability of propagules was significantly reduced in talc, wettable powder, PEG paste and tablet formulations beyond 1 year of storage. Seed treatment of tomato with these formulations resulted in effective control of damping-off caused by P. aphanidermatum, and also enhanced plant biomass under glasshouse and field conditions. Active rhizosphere colonization by the bacterium was observed on tomato plants grown from seeds treated with the above formulations.     

In vitro culture and precocious germination ofTaxus embryos

Summary The lengthy dormancy requirement of yew seeds can be overcome with a simple in vitro method. Viable embryos were excised from seeds ofTaxus brevifolia and four cultivars ofT. media over a range of developmental stages. Embryos were cultured in several basal media formulations (Whites’, Gamborg’s B5 and Murashige and Skoog’s) under dark or light. After a lag period of 1 to 2 wk, embryos of both species germinated precociously. Germination rates of up to 70% were obtained withT. media cv. Hicksi embryos. The highest rates of germination were obtained in White’s and MS media. Embryos excised from green seeds with undeveloped arils showed the highest germination rates. As the seeds approached maturity, in vitro germination rates of the excised embryos declined dramatically. Green seeds and seeds with developing arils could be stored at 5° C without large loss in embryo germination. Seeds with fully developed arils could be stored frozen at −20° C for 1 wk while still allowing about 50% of embryo germination. At least 30% of the precociously germinated embryos of both species were able to develop into full seedlings. Our method appears to be generally applicable toTaxus spp. This research was supported by a grant from the Hawaii Biotechnology Group, Inc.     

不同光照处理下青藏高原克隆植物黄帚橐吾(Ligulariavirgaurea)种子大小对其幼苗生长的影响

以高寒草甸克隆植物黄帚橐吾为实验材料,通过遮荫网模拟植被遮荫,研究种子大小与萌发及幼苗生长能力的关系和幼苗对光照条件的反应。结果表明：（1）在自然光照下,黄帚橐吾种子大小对种子萌发的影响显著,大种子的萌发率高于小种子。遮荫生境下,大、小种子萌发率有所降低,但遮荫对小种子萌发的影响比大种子显著。小种子的萌发率下降了近1/8,而大种子的萌发率仅下降了1/11。（2）黄帚橐吾种子大小对幼苗生物量积累影响显著,大种子幼苗总生物量（TB）大于小种子幼苗的。但生物量的分配与播种时间相关,播种后60 d,在自然光照条件下,大种子幼苗对根生物量的分配大于小种子幼苗,而对叶生物量的分配则正好相反。在遮荫环境中,大、小种子幼苗普遍对根的生物量分配增加,大种子幼苗根冠比（R/S）大于小种子幼苗。（3）黄帚橐吾种子大小对幼苗的生长也有明显影响。在自然光照下,小种子幼苗的相对生长速率（RGR）较大于大种子幼苗,但叶面积比率（LAR）、叶面积干质量比（SLA）、叶干质量（LWR）差别不明显。在遮荫条件下,幼苗的LAR、SLA、LWR显著增加,但大、小种子幼苗间差异不显著,幼苗的RGR减小,小种子幼苗的减小趋势大于大种子幼苗。     

Evaluating germinability of eight desert halophytes under long-term seed storage: Implications for conservation

Ex situ conservation in seed banks is a potential complementary conservation strategy for native plant species.It is well established that ex situ seed banking of native wild plants prolongs seed viability and thereby preserves genetic and species diversity for future use.We evaluated ex situ storage potential of eight halophytic species from deserts in the United Arab Emirates(UAE)by studying seed germination.Specifically,we examined the germinability of freshly collected seeds and seeds stored for three years in a seed bank.We also examined the effect of light conditions on fresh and stored seed germination.Fresh seeds of seven of the eight species tested had a higher germination rates under 12/12 h light/dark fluctuations than did those exposed to total darkness.Storage reduced light sensitivity in Halocnemum strobilaceum,Suaeda aegyptiaca,Salsola drummondii and Salsola imbricata,but increased the requirement for light in Arthrocnemum macrostachyum.In Anabasis setifera,storage decreased germination percentage when there was a 12-hour light/dark fluctuation,but increased germination rate when exposed to the dark treatment.Storage significantly reduced germination in both the light/dark and dark treatments in Suaeda vermiculata and S.aegyptiaca.Germination speed also responded differently to storage;whereas Timson's index significantly increased in A.macrostachyum and H.strobilaceum,it significantly decreased for S.drummondii,S.aegyptiaca and S.vermiculata.Germination of these species at a range of temperatures requires further testing;additionally,we strongly suggest that these laboratory findings be complemented by field studies.