沸石对土壤养分生物有效性和土壤化学性质的影响研究

在花岗岩发育的赤红壤上进行的天然沸石混施化肥的盆栽试验研究结果表明,沸石提高了土壤养分的生物有效性,显著促进玉米的生长,增加玉米的生物量和提高了玉米对N,P,K的吸收量,15N示踪技术表明,沸石处理可以显著提高氮肥的利用率,两造玉米最高的氮肥利用率分别比对照提高28．8％和60．0％,土壤的分析结果表明,沸石处理也可提高土壤阳离子交换量,盐基饱和度和土壤pH值。     

退化落叶松人工林近自然化改造对土壤微生物及养分的影响

落叶松人工纯林生产力和地力下降是目前林业生产亟待解决的问题,尤其是第2代人工林,通过近自然化改造是否能提高土壤肥力,改善土壤微生物多样性及养分,缺乏深入的研究.本文对第2代落叶松人工纯林近自然化改造2年内土壤微生物群落的多样性和结构变化以及土壤养分变化进行了调查.结果显示:林隙大小与土壤微生物多样性有较强的相关性,小林隙(25 m2)土壤微生物多样性比大林隙(100 m2)高;改造后第1年,小林隙土壤微生物多样性显著提高,Shannon指数、丰富度指数和均匀度指数均高于大林隙和对照(未间伐);第2年各处理间差异不显著;2年的3个指数比较发现,Shannon指数和丰富度指数均是第1年明显高于第2年,而均匀度指数变化相反,说明第1年土壤微生物的物种多样性较高但分布不均匀.在种类遗传相似性方面,小林隙与对照更为接近,大林隙可能由于小气候变化较大致使土壤微生物变化较剧烈.改造后第1年土壤养分含量显著增加,尤其是有效P,大林隙增幅达80％,小林隙达52％,有效N的含量也有所增加,有效K含量增加不明显.第2年土壤养分含量有所下降,但大、小林隙下降的格局不同,大林隙有效P含量下降极显著,小林隙养分下降不显著.本研究为近自然化改造的可行性及其科学实施提供了依据.     

氮磷供给比例对长白落叶松苗木磷素吸收和利用效率的影响

有关氮(N)∶磷(P)供给比例对苗木P吸收和利用影响的研地究仍存在盲点.选用长白落叶松(Larix olgensis Henry.)播种苗作为材料,对比了1∶3、1∶2、1∶1、2∶1、3∶1五个N∶P供给比例对温室条件下苗木生长、针叶和根系中P的含量以及P的吸收和利用效率的影响差异.另设试验对比了分别以NH4+-N和NO3--N为N源情况下5个N∶P比例对P吸收的动力学特征的影响差异.结果表明:1)随着N∶P比例的增加根系有变粗和变长的趋势且根系生物量分配逐渐提高(P=0.0027);2)1∶2比例下叶片P浓度较2∶1和3∶1比例分别提高37％和45％ (P=0.0187),但是P利用率却分别下降了84％和37％ (P=0.0008),并且P吸收效率分别下降了48％和62％ (P=0.0004);3)NH4+-N环境中,随着N浓度提高,P吸收速率呈线性上升(R2=0.908),而在NO3--N环境中P吸收速率和N∶P比例间无相关关系(R2 =0.005).前者和后者环境中Vmax值分别为0.89和0.60 mmol/h/gFM,Km值分别为0.15和0.03 mmol/L.综上:如在N、P同时存在的情况下欲提高长白落叶松苗木对P的吸收和利用效率,可考虑适当控制N的硝化并在一定范围内提高N∶P供给比例.     

基于生物多样性保护的兴安落叶松与白桦最佳混交比例——以阿尔山林区为例

选取内蒙古阿尔山林区7种不同混交比例的松桦混交林,包括落叶松纯林、白桦纯林及5种不同比例的混交林为研究对象。对植物和昆虫种群丰富度、多样性进行了研究,并对种群在乔木层混交状况梯度下的分布进行了分析。结果表明:植物和昆虫种群分布受乔木层混交状况影响显著。同时,郁闭度能改变其分布状况及决定于松桦比例。兴安落叶松和白桦混交比例介于5∶5和7∶3之间时最有利于森林多样性,是进行林分疏伐的理想模式。     

辽东山区不同林龄日本落叶松人工林土壤微生物、养分及酶活性

对辽宁省抚顺市大孤家林场11、20、34和47年生日本落叶松人工纯林表层土壤(0~5 cm)微生物群落结构、养分及酶活性进行了研究.结果表明: 土壤微生物、养分及酶活性各项指标基本呈现11或47年林龄较高,而20或34年林龄较低.随林龄增加,土壤地力呈现衰退趋势,土壤微生物群落结构及酶活性变化对地力衰退呈现响应趋势,不同林龄真菌群落结构的差异较细菌显著.典范对应分析(CCA)表明,土壤养分含量及pH值对微生物群落结构的季节变化没有影响,但对在不同林龄间微生物的变化有影响.土壤全氮、有机碳、C/N、速效氮和pH值对不同林龄细菌分布影响较大,土壤速效磷、全钾、交换性镁离子和pH值对真菌分布影响较大.细菌与真菌群落主要的T RFs片段与氮、磷的相关性都较高,而真菌群落与有机碳、钾的相关性高于细菌群落.11和47年林龄微生物群落与土壤养分、酶活性的相关性高于20与34年.因此,土壤微生物(尤其是土壤真菌)可以敏感地指示土壤肥力的变化.     

秦岭地区华北落叶松人工林地土壤养分和酶活性变化

以秦岭地区不同林龄(5年生、10年生、20年生、30年生和40年生)华北落叶松人工林为研究对象,采用野外调查采样和室内分析相结合的方法,研究了不同林龄华北落叶松人工林地土壤剖面p H值、有机质养分和酶活性的变化。结果表明:土壤p H值随着林龄有降低趋势,随着土层深度的增加有升高趋势。土壤有机质和土壤速效氮、速效磷和速效钾在近熟龄期显著高于幼龄期。土壤中的磷酸酶、脲酶、蔗糖酶和过氧化氢酶活性随着林龄都呈"高—低—高"的趋势,幼龄期的土壤蔗糖酶活性显著高于近熟龄的,而磷酸酶、脲酶和过氧化氢酶活性是近熟龄期的显著高于中幼龄。土壤速效养分和酶活性都随着土层深度的增加有显著的降低。相关分析表明磷酸酶活性与有机质、速效氮、速效磷、速效钾和脲酶活性呈极显著的正相关性(P0.01),脲酶与有机质、速效氮和速效钾呈极显著正相关。蔗糖酶与过氧化氢酶活性显著负相关(P0.05),与p H值有一定的正相关性。秦岭地区华北落叶松人工林进入近熟林之后土壤肥力有一定的恢复,而在中幼龄阶段土壤养分比较缺乏,尤其是氮磷。     

沼泽交错带白桦——长白落叶松优势种群的年龄结构及其动态

采用径级结构替代年龄结构与建立种群年龄结构模型相结合的方法,研究沼泽交错带白桦—长白落叶松优势种群的年龄结构特征。结果表明:白桦、长白落叶松和辽东桤木种群的年龄结构呈纺锤型,龄级—个体数间的关系可用Lognormal函数表征;种群动态量化指数V'_(pi)为辽东桤木(9.57%)白桦(4.02%)长白落叶松(1.83%),均趋近于0,说明种群处于稳定型向衰退型过渡阶段;白桦、长白落叶松及辽东桤木种群幼龄个体严重不足,白桦和辽东桤木种群的存活曲线趋于Odum-B3型,而长白落叶松种群趋于Deevey-I型。白桦、长白落叶松及辽东桤木种群具有前期增长、中后期衰退的特征;白桦、长白落叶松和辽东桤木种群数量受基波影响显著,种群整个生活史阶段未显现小周期波动,种群发展较稳定;随着时间的推移,在未来2、4和6个龄级后,白桦、长白落叶松和辽东桤木种群老龄个体数均有增加,但由于更新幼苗个体稀少,未来必然呈衰退趋势。森林—沼泽交错带的白桦、长白落叶松及辽东桤木种群对外界环境变化有强烈的敏感性和脆弱性,人类活动扰动会影响其发育与演变,从而提高了森林—沼泽交错带地区沼泽化的风险。因此,应减少人类活动对森林—沼泽交错带的干扰,加强对这一地区植被群落的保护与管理。     

陇中黄土高原典型草原生物土壤结皮发育对土壤养分的影响

为了解生物土壤结皮发育与土壤养分特征的关系,该研究选取处于不同发育阶段和不同盖度的藓结皮(M-crust)和地衣结皮(L-crust),对其结皮层生物体及结皮下层3 cm土壤进行养分分析。结果显示：(1)藓结皮生物体对土壤全氮(TN)、全磷(TP)、铜(Cu)和锌(Zn)的生物富集作用较强,其富集系数分别高达807.4%、175%、122.4%和244.5%,而地衣结皮生物体对TN、TP和钙(Ca)的生物富集作用较强,其富集系数分别高达950.8%、126.2%和208.6%;除Ca外,藓结皮生物体中TP、钠(Na)、钾(K)、Cu、铁(Fe)、镁(Mg)、锰(Mn)和Zn均显著高于地衣结皮。(2)土壤生物结皮盖度与其对应的土壤养分含量之间无显著线性相关关系,但发育有不同盖度藓结皮的土壤其平均TN、TP、Cu、Fe、K、Na和Ca含量均高于地衣结皮。研究表明,不同类型生物土壤结皮对养分吸收、富集效率不同,处于发育后期的藓结皮较发育中期的地衣结皮具有更强的养分累积效应,提高了土壤的养分贮存量,对黄土高原典型草原生态系统的恢复与重建具有潜在的重要影响。     

寒温带兴安落叶松和白桦生长季水分利用特征

植物水分利用在生态系统水文循环及其生产力中起着重要作用。气候变化下寒温带森林水分胁迫逐渐加剧,对其典型树种水分利用特征的研究有助于理解寒温带森林生态系统的稳定性及可持续性。以大兴安岭北部典型树种兴安落叶松(Larix gmelinii)(L)和白桦(Betula platyphylla)(B)为研究对象,利用稳定同位素技术测定降雨、木质部水和土壤水中氢氧稳定同位素值(δD和δ¹⁸O),揭示不同水源δD和δ¹⁸O值的分布特征,并利用多源线性混合模型及树干边材液流通量,分析不同水源对2树种的利用率和利用量,揭示生长季兴安落叶松和白桦生长季水分利用特征变化。结果表明：(1)研究区的大气降雨和土壤水同位素均受蒸发的影响发生了一定程度的分馏,且土壤水同位素分馏程度存在树种间的差异,兴安落叶松分馏程度大于白桦。(2)降雨和蒸发对2个林分土壤含水率和土壤水稳定同位素值在上层土壤(0—10cm)影响强烈,而对中下层影响较小,且各层土壤水稳定同位素值表现出显著差异(P<0.05)。(3)在5月和9月兴安落叶松和白桦主要利用上层土壤水分,对上层土壤水分的利...     

Leaf nutrient dynamics and nutrient resorption: a comparison between larch plantations and adjacent secondary forests in Northeast China

Aims Conversion of secondary forests to pure larch plantations is a common management practice driven by the increasing demand for timber production in Northeast China, resulting in a reduction in soil nutrient availability after a certain number of years following conversion. Nutrient resorption prior to leaf senescence was related to soil fertility, an important nutrient conservation strategy for plants, being especially significant in nutrient-poor habitats. However, the seasonal dynamics of leaf nutrients and nutrient resorption in response to secondary forest conversion to larch plantations is not well understood.Methods A comparative experiment between larch plantations (Larix spp.) and adjacent secondary forests (dominant tree species including Quercus mongolica, Acer mono, Juglans mandshurica and Fraxinus rhynchophylla) was conducted. We examined the variations in leaf nutrient (macronutrients: N, P, K, Ca and Mg; micronutrients: Cu and Zn) concentrations of these tree species during the growing season from May to October in 2013. Nutrient resorption efficiency and proficiency were compared between Larix spp. and the broadleaved species in the secondary forests.Important findings Results show that the seasonal variation of nutrient concentrations in leaves generally exhibited two trends, one was a downward trend for N, P, K, Cu and Zn, and another was an upward trend for Ca and Mg. The variations in foliar nutrient concentrations were mainly controlled by the developmental stage of leaves rather than by tree species. Resorption of the observed seven elements varied among the five tree species during leaf senescence. Nutrient resorption efficiency varied 6–75% of N, P, K, Mg, Cu and Zn, while Ca was not retranslocated in the senescing leaves of all species, and Mg was not retranslocated in Larix spp. Generally, Larix spp. tended to be more efficient and proficient (higher than 6–30% and 2–271% of nutrient resorption efficiency and resorption proficiency, respectively) in resorbing nutrients than the broadleaved species in the secondary forests, indicating that larch plantations had higher leaf nutrient resorption and thus nutrient use efficiency. Compared with Larix spp., more nutrients would remain in the leaf litter of the secondary forests, indicating an advantage of secondary forests in sustaining soil fertility. In contrast, the larch plantation would reuse internal nutrients rather than lose nutrients with litter fall and thus produce a positive feedback to soil nutrient availability. In summary, our results suggest that conversion from secondary forests to pure larch plantations would alter nutrient cycling through a plant-mediated pathway.     

白桦、落叶松不同器官水浸液对种子萌发和播种苗生长的种间化感作用

研究了白桦的根、枝、叶,落叶松的根、枝、叶和皮不同浓度水浸液(5.0、12.5、25.0、50.0和100.0 mg·mL-1)对另一树种种子萌发和当年生播种苗生长的化感作用.结果表明:落叶松不同器官水浸液(根5.0 mg·mL-1除外)处理均抑制白桦种子的萌发,其平均发芽率为:对照(75％)＞根(66％)＞皮(59％)＞枝(58％)＞叶(54％),随浓度增加,根、枝水浸液的抑制作用增强,而叶、皮水浸液的抑制作用减弱.落叶松各器官水浸液对白桦胚根和胚轴生长具有较强的抑制作用,且以100.0 mg·mL-1浓度的叶水浸液抑制作用最强,胚根和胚轴长分别降低38％和55％(P＜0.05).落叶松枝、叶水浸液处理对白桦播种苗的苗高、地径及生物量有一定的促进作用,根、皮水浸液则具有抑制作用.白桦各器官水浸液能促进落叶松种子的萌发,根和枝的水浸液促进胚轴生长,叶的水浸液抑制胚轴生长,50.0和100.0 mg·mL-1浓度的叶水浸液处理的种子胚轴分别较对照降低27％和28％(P＜0.05).其对落叶松播种苗生长的影响以促进作用为主,5.0 mg·mL-1浓度的白桦叶水浸液处理的落叶松苗高、地径、生物量分别较对照高54％、60％和100％ (P＜0.05).白桦与落叶松之间存在明显的化感作用,混交可能对林木生长产生一定的促进作用.     

落叶松、水曲柳的氮营养行为及其种间分异

对已郁闭的12年生带状混交林和盆栽苗木的研究表明,落叶松和水曲柳在吸收空间的利用和吸收N素的时间(季节)、数量、形态诸方面都有不同的行为模式,二者存在着显著的种间差异.水曲柳根系发达,与落叶松混交能够保持固有的扎根习性不变,吸收根主要集中在土壤上层(0～20cm);落叶松根系在土壤上层受到水曲柳排斥,吸收根大量向下层(20～60cm)发展.在整个生长季中,两树种都有明显的N吸收峰期,水曲柳峰期出现在6月中下旬,落叶松峰期则出现在7月中下旬,二者是明显错开的.在吸收N素的数量上,水曲柳吸收量大,N利用效率较低;落叶松吸收量相对较小,N利用效率较高(比水曲柳高60.8%).在对N素养分化学形态的偏向选择方面,水曲柳较喜NO₃^--N,落叶松则对NO₃^--N和NH⁺-N无明显的偏好性.     

Nutrition and growth of birch and grey alder seedlings in low conductivity solutions and at varied relative rates of nutrient addition

Birch (Betula verrucosa Ehrh.) and grey alder (Alnus incana Moench) seedlings were grown with varied relative addition rates of all nutrients, up to optimum for vegetative growth. The root medium was basically distilled water to which the nutrients, contained in stock solutions in fixed proportions, were added every second hour and in exponentially increased amounts for consumption during the subsequent period. The nutrient weight proportions previously found to be required in birch (100 N:65 K:13 P) were used in all treatments. However, the nutrient proportions required in grey alder were found to be somewhat different (100 N:50 K:18 P). The use of the required proportions in the additions was important for maintenance of maximum growth, efficient nutrient utilization, and low concentrations in the root medium. Luxury consumption and inefficiency occurred at high concentrations. The results show that the nutrient requirements are sufficiently defined, for different relative growth rates, by the nutrient proportions and the relative addition rate. No clear relationships were found between conductivity or concentration in the root medium and the addition rate, net uptake rate, nutrient status, or relative growth rate. The results are in good agreement with data from low concentration and depletion experiments reported in the literature, showing that non-limited uptake rates occur down to very low concentrations. Thus, there is strong evidence that concentration has been incorrectly used when applied as the treatment variable for plant nutrition in plant science and cultivation practice. The dominant factors in sub-optimum and optimum nutrition are the amounts of nutrients available per unit of time, the growth rate, and the nutrient proportions. At low concentration levels, physical factors such as stirring and flow rate of nutrient solution and boundary layer effects are decisive for the rates with which the nutrients become available to the roots. Therefore, at low levels, concentration alone cannot be used as the factor determining nutrient uptake rate. At high levels, concentration is effective as a supra-optimum factor and increased internal percentage contents cause decreased uptake efficiency, thus counter-acting the concentration effect. Nitrogen effects dominated the stress indications when the internal nitrogen percentage content decreased from optimum to the level of the treatments in the beginning of the experiments. Leaf deficiency symptoms disappeared and the root/shoot ratio change ceased when nitrogen status stabilized. Strong linear regressions were found between any two of the variables: relative addition rate of nutrients, relative growth rate, and nutrient status.     

大兴安岭新林林业局3种林分类型天然更新幼苗幼树的空间分布格局

基于大兴安岭新林林业局落叶松林、白桦林和混交林3种主要林分类型16块样地的调查数据,依照幼苗幼树的株高划分为3个等级: Ⅰ级, 株高≤60 cm; Ⅱ级, 60 cm＜株高≤200 cm; Ⅲ级, 株高＞200 cm且胸径＜5 cm.在4种取样尺度下,采用负二项指数等7种聚集度指数,判定幼苗幼树的分布格局及格局强度,分析格局变化和格局规模.结果表明: 除落叶松林的落叶松幼苗幼树Ⅱ级最多,且随等级升高幼苗幼树密度先升高后降低外,白桦林和混交林的落叶松以及3种林分的白桦幼苗幼树Ⅲ级最多,而Ⅰ级最少,随等级升高,幼苗幼树密度均升高.落叶松幼苗幼树在3种林分4种取样尺度下均呈聚集分布.白桦幼苗幼树在白桦林中除在10 m×20 m尺度为随机分布外,均呈聚集分布.除落叶松幼苗幼树在混交林中5 m×10 m尺度时聚集强度最大外,落叶松在其他林分以及白桦在3种林分均在5 m×5 m尺度下聚集强度最大.在落叶松林,落叶松和白桦幼苗幼树的聚集强度随等级增大而减小,其中白桦由聚集分布变为随机或均匀分布;在白桦林和混交林中,落叶松和白桦幼苗幼树的聚集强度随等级升高不断增大,由均匀分布变为聚集分布.在3种林分类型中,不同更新等级落叶松和白桦幼苗幼树种群的格局规模均为25 m².落叶松和白桦幼苗幼树种群格局强度在不同林分类型、不同更新等级中差异明显.     

辽东山区落叶松人工林地上生物量和养分元素分配格局

落叶松是我国北方最主要的人工用材林树种,由于人工林树种单一、结构简单等原因,导致土壤养分循环出现失衡.研究落叶松生物量和养分元素分配规律,可以为落叶松人工林的合理经营和养分循环研究提供科学参考.本文以辽东山区19年生二代落叶松人工林(胸径12.8 cm,树高15.3 m,密度2308株·hm^-2)为对象,研究其地上各器官(干、枝、皮、叶)生物量、碳和养分元素含量(N、P、K、Ca、Mg、Fe、Mn、Cu、Zn)的积累规律和分配格局.结果表明：单株落叶松生物量为70.26 kg,林分水平落叶松生物量为162.16 t·hm^-2,各器官生物量差异显著,排序为：树干>树枝>树皮>树叶;单株落叶松养分积累量为749.94 g,林分水平落叶松养分积累量为1730.86 kg·hm^-2,其中,大量元素和微量元素的养分积累量均为树干显著高于树枝、树皮和树叶.全叶期每砍伐一棵落叶松(19年生),平均从系统中带出749.94 g养分元素;如果将树皮、树枝、树叶留在林地仅仅带走树干,带出的养分元素可减少40.7%.
     

Water Balance of Birch and Larch Leaves and Their Resistance to Short and Progressive Soil Drought

In a greenhouse experiment, which imitated a short (4-day-long) and progressive (3-week-long) soil drought, an infrared gas analyzer was employed to assess transpiration (mol/(m² s)) and leaf transpiration conductivity (g _w, mol H₂O/(m² s)) in intact one-year-old plants of Betula platyphylla Suk. and Larix gmelini (Rupr.) Rupr. grown at the saturation levels of photosynthetically active radiation. The drought duration did not affect the adaptation of leaf water balance, it was determined only by leaf temperature and water supply. At ample water supply and with all other conditions being equal, the transpiration of birch exceeded that of larch by the factor of 3; however, birch was less tolerant to soil drought. The authors conclude that water supply and leaf temperature determine plant resistance to soil drought. The species-specific drought resistance depends on the g _w value.     

不同林龄、树种落叶松人工林径向生长与气候变化的关系

研究人工林径向生长与气候变化的关系对全球气候变暖背景下人工林合理经营有着重要的意义。该文对在辽东山区广泛栽培的黄花落叶松(Larix olgensis)和日本落叶松(Larix kaempferi)人工林, 运用树木年轮气候学方法建立了辽宁草河口和湾甸子林场落叶松人工林年表, 分析了落叶松径向生长对气候变化的响应以及气候条件、树种、立地条件和林分因子(林龄、密度、蓄积量等)的相对影响程度。结果发现在影响年轮-气候关系的因素中, 气象因子的潜在蒸发散(PET)的影响力最大; 林龄、密度和蓄积量同时也具有重要的影响作用。中龄落叶松人工林径向生长主要与气温呈正相关关系, 成熟落叶松人工林径向生长主要与气温呈负相关关系; 而其他因素, 如树种、立地条件等的影响作用不大。这表明在气候变暖背景下随着林龄增加, 林分会逐渐受到气温升高导致的水分亏缺的限制, 导致明显的生长下降趋势, 因而气候变暖对成熟落叶松人工林威胁更为严重, 所以要注重对成熟林的优先保护, 同时可以预测, 随着东北地区今后气候进一步变暖, 可能将逐步影响到林龄更小的林分的生长, 因此需要进一步研究如何在落叶松人工林经营中采取科学的措施来更好地应对未来气候变化。     

Alteration of phytoplankton phosphorus status during enrichment experiments: implications for interpreting nutrient enrichment bioassay results

We compared the results of phosphorus-enrichment bioassay experiments with alkaline phosphatase activity (APA) assays as indicators of phosphorus (P) limitation of in situ phytoplankton growth. In 4-d experiments, phytoplankton APA decreased or remained unchanged in P-enriched samples, but increased in unenriched samples, indicating a rapid alteration of the P status of the unenriched algae during the experimental incubations. In direct comparisons of enrichment bioassays and APA assays of reservoir phytoplankton samples, the results of the two methods corresponded in general, although contradictory results were not uncommon. Our data support the conclusion that enrichment experiments can indicate the potential for nutrient limitation of algal growth in the absence of other limiting factors, but do not necessarily demonstrate the occurrence of in situ nutrient limitation of phytoplankton production.     

3种落叶松幼苗对CO2升高的光合生理响应

采用Li-6400便携式光合作用测定系统研究CO2升高对长白落叶松(Larix olgensisHerry.),日本落叶松(Larix kaempferiCarr.)和兴安落叶松(LarixgmeliniRupr.)当年生和1年生幼苗的光合特性的影响。结果表明:CO2升高使3种落叶松光饱和光合速率(Pmax)和呼吸速率均有不同程度的增加,其中,长白落叶松当年生和1年生幼苗Pmax分别比对照提高了91%和83%,日本落叶松当年生和1年生幼苗Pmax分别比对照提高了71%和94%,而兴安落叶松当年生和1年生幼苗Pmax分别比对照提高了32%和106%。除兴安落叶松外,CO2升高使所有落叶松当年生幼苗的光补偿点(LCP)下降,说明当年生幼苗对CO2浓度升高的反应更敏感。CO2升高使日本落叶松当年生和1年生幼苗光饱和点(LSP)都升高,反映了其光合作用提高的潜力较大。CO2升高条件下,除1年生兴安落叶松外,其他处理的落叶松最大量子效率(AQYmax)均增加。比较分析表明,在未来大气CO2浓度升高条件下,日本落叶松的生长潜能可能最大,具有较强的生态优势,长白落叶松次之,兴安落叶松最小。