Carbon Return and Dynamics of Litterfall in Natural Forest and Monoculture Plantation of Castanopsis kawakamii in Subtropical China

The amount of carbon returned through litterfall and its seasonal pattern were studied in a natural forest of Castanopsis kawakamii (NF) and adjacent monoculture plantations of C. kawakamii (CK) and Chinese fir (Cunninghamia lanceolata) (CF) in Sanming, Fujian Province, China. Mean annual carbon return through total litterfall over 3 years (from 1999 to 2001) was 5.097 t穐m2 in the NF, 4.337 t穐m2 in the CK and 2.502 t穐m2 in the CF respectively. Of the total carbon return in the three forests, leaf contribution accounted for 58.96%, 68.53% and 56.12% and twig 24.41%, 22.34% and 26.18%, respectively. The seasonal patterns of carbon return from total litterfall and leaf-litter were quite similar among the three forests. A peak of carbon input from litterfall in the NF and the CK occurred in spring except for the highest annual C return through branch litter of the NF in summer, while the CF showed the maximum C return in summer. The results of this study demonstrate that the natural forest has a greater C return through litterfall than monoculture plantations, which is beneficial to the increase of soil organic matter storage and the maintenance of soil fertility.

What is the value of eucalyptus monocultures for the biodiversity of the Atlantic forest? A multitaxa study in southern Bahia, Brazil

Eucalyptus plantations are increasing in Brazil, frequently replacing pastures, but there is still scarce information about its capacity to maintain the fauna of neighbor forest remnants. In this study, we compared descriptors of the communities of leaf litter organisms （lizards, anurans, myriapods, arachnids, orthopterans, coleopterans, and ants） between a large remnant of primary Atlantic Forest and an adjacent eucalyptus monoculture （phase 1）. Then, we compared the same descriptors for leaf litter lizards and anurans, Euglossini bees, and frugivorous butterflies among the largest remnant, small remnants at intermediate regeneration stage, and eucalyptus monocultures that were not adjacent to the largest remnant （phase 2）. Monocultures were sampled immediately before logging. In phase 1, we detected significant differences in structure between the forest and the monoculture in six out of seven communities sampled. Ca. 81% of the species of the landscape were recorded in the forest, but only 54% of these were found also in the monoculture. In phase 2, the structure of two out of four forest communities was significantly different from the structure of small remnants and monocultures. On average, 76% of the species found in the whole landscape were sampled in the forest. Out of this subset, on average 74% of the species were also sampled in small remnants and 68% in monocultures. Findings of the present study point out a moderate capacity of eucalyptus monocultures to harbor species of the forest fauna even when fully grown but highlights the opportunity that they might offer for increasing connectivity in anthropogenic forest landscapes depending on their management.

Soil quality index as a tool for Scots pine(Pinus sylvestris) monoculture conversion planning on afforested,reclaimed mine land

In Central Europe, a large portion of post-mining sites were afforested with Scots pine, which is characterized by good adaptability and a tolerance for poor habitat at the beginning of forest ecosystem development. Conversion of monoculture on mine sites into more biodi- verse mixed hardwood forests, especially on more fertile deposits, can be an emerging need in this part of Europe in next decades. The ability to classify the forests at these post-mining sites will facilitate proper species selection as well as the management and formation of the developed ecosystem＇s stability. This work describes the guidelines that can be followed to assess reclaimed mine soil （RMS） quality, using the mine soil quality index （MSQI） and a classification of developed forest sites as a basis of tree-stand species selection and conversion of pine monocul- tures. The research was conducted on four post-mining facilities （lignite, hard coal, sulphur, and sand pit mining areas） on different RMS sub- strates dominant in Central Europe. Soil quality assessment takes into account the following features of the soil： texture soil nutrients （Ca, Mg, K, Na, P）; acidity （pH KC1）; and Corg-to-Nt ratio in the initial organic horizon. An analysis was conducted of classification systems using the MSQI validation correlation （at p =0.05） with vegetation features af- fected by succession： aboveground biomass of forest floor and ecological indicators of vascular plants （calculated on the basis of EUenberg＇s （2009） system）. Eventually, in the analysed data set, the MSQI ranged from 0.270 for soils on quaternary sands to 0.720 for a mix of quaternary loamy sands with neogene clays. Potential forest habitat types and the role of the pine in the next generation of tree stands on different RMS parent rock substrate were proposed.

Soil Biological Changes for a Natural Forest and Two Plantations in Subtropical China

Conversion of natural forests into pure plantation forests is a common management practice in subtropical China.To evaluate the effects of forest conversion on soil fertility, microbe numbers and enzyme activities in topsoils (0-10 cm)were quantified in two 33-year-old monoculture plantations of Castanopsis kawakamii Hayata (CK) and Cunninghamia lanceolata Lamb. (Chinese fir) (CF), and compared to a neighboring relict natural C. kawakamii forest (NF), in Sanming,Fujian. Five soil samples were collected once each in January, April, July, September and November in 2000 in each forest for laboratory analysis. Over the sampling year, there were significant differences for bacteria, fungi and actinomycetes between forests and between seasons (P ＜ 0.05). The largest bacteria and fungi populations were in NF, while CF contained the greatest number of actinomycetes. There were also significant differences (P ＜ 0.05) with microbial respiration for forests and seasons. Additionally, compared with NF, urease and acid phosphatase were significantly lower (P ＜ 0.05)in CK and CF. Also, the correlations of soil hydrolysable N and available P to soil microbial and enzymatic activities were highly significant (P ＜ 0.01). Thus, to alter the traditional Chinese fir monoculture so as to mimic the natural forest conditions, managing mixed stands of Chinese fir and broadleaf trees or conducting crop rotation of conifers and broadleaf trees as well as minimizing forest disturbances like clear-cutting, slash burning and soil preparing, could be utilized.

Forest land use discontinuity and northern red oak Quercus rubra introduction change biomass allocation and life strategy of lingonberry Vaccinium vitis-idaea

Background:Multi-purpose use of forests in a sustainable way forces a recognition of how introduction of alien woody species in forests with different land use histories affect native plants other than trees.Lingonberry Vaccinium vitis-idaea is an important understory component of temperate and boreal forests and provider of valuable non-wood forest products.Here we studied effects of land use changes and introduction of Northern red oak Quercus rubra on lingonberry in mesic Scots pine forests(in central Poland).We measured lingonberry cover,height of shoots,biomass of stems and leaves,and fruit productivity.Shoots were collected within 200 research plots located in recent and ancient Scots pine forests,with and without Q.rubra.Results:We found that V.vitis-idaea reached lower cover,aboveground biomass and fruit production in recent than ancient forests and in forests with than without Q.rubra.The fruit production in recent pine forest was only 2%of that reported in ancient pine forest,and V.vitis-idaea did not reproduce generatively in forests with Q.rubra.Biomass and carbon sequestration of V.vitis-idaea in forests with alien(invasive)trees decreased by 75%compared to ancient pine forest.Effects were also clear at the individual shoot level–in less suitable conditions we found taller heights and higher biomass allocation into stems than foliage.Biomass allocation in fruiting and non-fruiting shoots in pine forests was also different–less of the dry biomass of fruiting shoots was allocated to leaves than to stems.Conclusions:In the age of high interest in ecosystem services and discussions about usage of alien tree species as alternatives in forest management,our results clearly indicate disruption of ecosystem services provided by V.vitisidaea in the presence of Q.rubra.Lingonberry benefited from the continuity of forest land use,however,regardless of land-use legacy,alien tree introduction led to decline in abundance of species crucial for ecosystem functioning.Therefore,to maintain valuable native species and for conservation of ecosystem services delivery,we suggest limiting the introduction of Q.rubra in areas with abundant V.vitis-idaea,especially in forests with continuous forest land-use history.

针阔凋落叶混合分解过程中土壤动物群落结构变化特征

为了探明混合凋落叶分解过程中土壤动物的群落结构特征,以马尾松、檫木、香樟以及香椿凋落叶为试验对象,分析35种不同处理凋落叶分解过程中土壤动物的群落变化特征。研究发现:2 a分解时期(8次采样)共采集到土壤动物29614头,隶属于6门16纲39目92科。优势类群有为跳虫科、耳叶蝉科和跗线螨科。所有处理凋落叶中土壤动物以杂食性为主,其次是腐食性和植食性,捕食性占比最低。大部分混合凋落叶(51.61%~70.97%)的土壤动物密度表现出协同效应,而土壤动物多样性指数仅在第1年的11月(秋季)和8月(夏季)表现出较强的协同效应(70.97%和64.52%)。31个混合处理中,在马尾松+香椿、马尾松+檫木+香樟、马尾松+檫木+香椿和马尾松+香樟+香椿组合中阔叶占40%时,土壤动物密度在每年的5和11月均为协同效应,马尾松+檫木+香椿(PST631处理)的土壤动物多样性指数在6个分解时期类均表现出协同效应。可见,将马尾松和檫木以及香椿凋落叶按照针叶和阔叶6∶4混合后,不仅能提高土壤动物的数量,同时也能提高土壤动物的多样性。

Rubber-based agroforestry systems modify the soil fungal composition and function in Southwest China

Rubber-based agroforestry systems have been recognized as a practical and sustainable solution to promote the development of agriculture and the environment.However,interactions between fungal communities and these systems are still not sufficiently investigated.In this study,we compared the abundance,diversity,and community composition of soil fungi in four treatments,including rubber monoculture and three rubber-based agroforestry treatments involving intercropping with Camellia sinensis,Coffea liberica,and Theobroma cacao.The results revealed that the community composition exhibited significant variation between the four different treatments,while the overall soilα-diversity was relatively stable across all treatments.Soil pH and soil organic carbon were significantly related to the structure of the fungal community.In particular,the complexity of the functional fungal network increased in response to agroforestry treatments,promoting beneficial fungi and suppressing certain plant pathogens.These results suggest that rubber-based agroforestry systems can promote the health of soil microbial community composition,and therefore provide an effective approach to enhancing soil quality.

格氏栲天然林与人工林枯枝落叶层碳库及养分库

通过对福建三明格氏栲天然林及在其采伐迹地上营造的 33年生格氏栲人工林和杉木人工林枯枝落叶层现存量与季节动态、C库及养分库的研究表明 ,格氏栲天然林、格氏栲人工林和杉木人工林枯枝落叶层现存量分别为 8.99t· hm- 2 、7.5 6t· hm- 2 和 4 .81t· hm- 2 ;枯枝落叶层中叶占现存量的比例分别为 6 4 .96 %、6 1.38%和 38.0 5 % ,枝占比例分别为 31.5 9%、37.83%和 4 2 .6 2 %。格氏栲天然林与人工林枯枝落叶层现存量最大值均出现在春季 ,而杉木人工林枯枝落叶层现存量最大值出现在夏季。格氏栲天然林枯枝落叶层 C贮量为 4 .0 2 t· hm- 2 ,分别是格氏栲人工林和杉木人工林的 1.2 2倍和 1.77倍 ;格氏栲天然林和人工林枯枝落叶层 C库与杉木人工林的差异均达到显著水平 (P<0 .0 5 )。格氏栲天然林、格氏栲人工林和杉木人工林枯枝落叶层养分贮量分别为 138.4 2 kg· hm- 2 、113.5 6 kg· hm- 2 和 72 .39kg· hm- 2 ;除 Mg外 ,格氏栲天然林枯枝落叶层中各种养分贮量均最高。与人工林相比 ,天然林枯枝落叶层现存量、C和养分贮量均最大。枯枝落叶层对林地长期生产力维持具有重要作用。

格氏栲天然林与人工林细根生物量、季节动态及净生产力

通过对福建三明格氏栲天然林及在其采伐迹地上营造的33年生格氏栲人工林和杉木人工林细根分布、季节动态与净生产力进行的为期3a(1999～2001)的研究,结果表明,格氏栲天然林、格氏栲和杉木人工林活细根生物量分别为4.944t/hm2、3.198t/hm2和1.485t/hm2,死细根生物量分别为3.563t/hm2、2.749t/hm2和1.287t/hm2;死细根生物量占总细根生物量的比例分别为41.9%、46.2%和46.4%;<0.5mm细根生物量占总细根生物量的比例分别为31.2%、29.4%和69.9%。3种林分活细根生物量和死细根生物量季节间差异显著(P<0.05),但年份间差异则不显著(P>0.05);活细根生物量最大值均出现在3月份,最小值一般出现在5～7月份或11～翌年1月份间。0～10cm表土层格氏栲天然林活细根生物量高达295.65g/m2,分别是格氏栲人工林和杉木人工林的2.4倍和8.1倍;该层格氏栲天然林活细根生物量占全部活细根生物量的59.8%,均高于格氏栲人工林(39.07%)和杉木人工林(24.51%)。格氏栲天然林、格氏栲人工林和杉木人工林细根分解1a后的干重损失率分别为68.34%～80.13%、63.51%～77.95%和47.69%～60.78%;年均分解量分别为8.747、5.143和2.503t/hm2;死亡量分别为8.632、5.148和2.492t/hm2;年均净生产量分别为8.797、5.425和2.513t/hm2,年周转速率分别为1.78。

格氏栲天然林和人工林土壤呼吸对干湿交替的响应

通过室外定位观测前期连续干旱情况下天然降雨及室内模拟不同温度 (10℃、19℃和 2 8℃ )下测定格氏栲天然林、格氏栲人工林和杉木人工林土壤增湿后呼吸动态 ,探讨不同林型土壤呼吸对土壤干湿交替的响应。结果发现室外定位观测和室内模拟试验均出现了增湿后土壤呼吸骤升至最大值及随后逐渐衰减的现象 ,且这种变化可由时间过程模型 (R=ate- bt+c)较好地进行拟合。温度升高提升了土壤呼吸对干湿交替的响应值 RV。格氏栲天然林土壤呼吸对干湿交替的响应对温度最为敏感 ,随温度升高其响应指数 RE增加 ;杉木林土壤呼吸对干湿交替的响应指数 RE最高 ,且对土壤水分变化最敏感 ,但随温度升高超过一定限度后其响应指数

格氏栲天然林与人工林凋落物数量、养分归还及凋落叶分解(英文)

通过对中亚热带格氏栲天然林 ( natural forest of Castanopsiskawakamii,约 1 5 0年生 )、格氏栲和杉木人工林 ( monoculture plantations of C.kawakamii and Cunninghamia lanceolata,33年生 )凋落物数量与季节动态、养分归还及凋落叶分解与其质量的关系为期 3a的研究表明 ,林分年均凋落量及叶所占比例分别为 :格氏栲天然林 1 1 .0 1 t/hm2 ,5 9.70 t/hm2 ;格氏栲人工林 9.5 4 % ,71 .98% ;杉木人工林 5 .47t/hm2 ,5 8.2 9%。格氏栲天然林与人工林凋落量每年只出现 1次峰值 ( 4月份 ) ,而杉木林的则出现 3次 ( 4或5月份、8月份和 1 1月份 )。除杉木林的 Ca和格氏栲人工林的 Mg年归还量最大外 ,N、P、K及养分总归还量均以格氏栲天然林的为最大 ,杉木人工林的最小。分解 1 a后格氏栲天然林中格氏栲叶的干重损失最大( 98.1 6% ) ,杉木叶的最小 ( 60 .78% )。C/N及木质素 /N比值与凋落叶分解速率呈显著负相关 ,而 N、水溶性化合物初始浓度与分解速率呈显著正相关。与针叶树人工林相比 ,天然林的凋落物数量大、养分归还量高、分解快 ,具有良好自我培肥地力的能力。因此 ,保护和扩大常绿阔叶林资源已成为南方林区实现森林可持续经营的重要措施之一。

格氏栲天然林与人工林土壤非保护性有机C含量及分配

通过对福建三明格氏栲天然林及在其采伐迹地上营造的 33年生格氏栲人工林和杉木人工林土壤非保护性有机 C含量及分配的研究 ,结果表明 ,格氏栲天然林 0～ 10 0 cm土层内土壤有机 C贮量分别是格氏栲人工林和杉木人工林的 1.17倍和1.35倍 ,轻组有机 C贮量分别是后两者的 1.6 4倍和 2 .16倍 ,而颗粒有机 C贮量则分别是后两者的 1.6 0倍和 3.4 3倍 ,其土壤轻组有机 C和颗粒有机 C的分配比例亦显著高于后两者。不同林分间差异均以 0～ 10 cm土层为最大 ,该层格氏栲天然林土壤有机 C含量分别是格氏栲和杉木人工林的 1.5 2倍和 1.6 3倍 ,轻组有机 C含量分别是后两者的 1.70倍和 2 .14倍 ,而颗粒有机C含量则分别是后两者的 2 .18倍和 4 .85倍。这种差异与经营人工林时进行皆伐、炼山、整地等对林地干扰强度较大、幼林郁闭前产生水土流失及凋落物、枯死细根归还量减少等有关。土壤轻组有机 C和颗粒有机 C可作为土壤有机 C库变化的较为敏感指标 ,同时亦可指示土壤肥力演变。

不同林地土壤微生物生物量垂直分布及相关性分析

对福建三明格氏栲自然保护区内的格氏栲天然林和格氏栲人工林、杉木人工林的土壤微生物生物量C、N及诸因素的垂直变化进行了研究.结果表明：3种森林土壤微生物生物量C、N均随土层深度的增加明显下降,其中不同林地0-10 cm土层土壤微生物生物量的差异最大,格氏栲天然林和格氏栲人工林、杉木人工林的土壤微生物生物量C分别为1.502±0.16、1.035±0.103、0.82±0.076 g/kg,生物量N为别为0.27±0.031、0.172±0.018、0.147±0.016 g/kg;该层格氏栲天然林微生物生物量C分别是格氏栲人工林、杉木人工林的1.46和1.83倍,生物量N分别是格氏栲人工林、杉木人工林的1.57和1.84倍.相关分析表明：微生物生物量与土壤pH和土壤密度呈负相关,而与全N、全P、水解N和速效P含量呈正相关;与土壤有机C、轻组有机C、颗粒有机C含量及细根生物量之间呈显著（P〈0.05）或极显著（P〈0.01）的相关性,与土壤可溶性有机C含量的相关性未达显著水平（P〉0.05）.

格氏栲天然林与人工林凋落叶分解过程中养分动态(英文)

通过对中亚热带格氏栲天然林 (natural forest of Castanopsis kawakamii,约 15 0 a)、格氏栲和杉木人工林 (monocultureplantations of C.kawakamii and Cunninghamia lanceolata,33年生 )凋落叶分解过程中养分动态的研究表明 ,各凋落叶分解过程中 N初始浓度均发生不同程度的增加后下降 ;除格氏栲天然林中其它树种叶和杉木叶 P浓度先增加后下降外 ,其它均随分解过程而下降 ;除杉木叶外 ,其它类型凋落叶的 Ca和 Mg浓度呈上升趋势 ;凋落叶 K浓度均随分解过程不断下降。养分残留率与分解时间之间存在着指数函数关系 xt=x0 e- kt。凋落叶分解过程中各养分释放常数分别为 :N (k N) 0 .6 78～ 4 .0 88;P (k P)0 .6 2 1～ 4 .30 8;K(k K) 1.4 0 8～ 4 .4 2 1;Ca (k Ca) 0 .799～ 3.75 6 ;Mg (k Mg) 0 .837～ 3.894。除杉木叶外 ,其它凋落叶分解过程中均呈 k K>k P>k N>k Mg>k Ca的顺序变化。各林分凋落叶的年养分释放量分别为 N10 .73～ 4 8.19kg/ (hm2 · a) ,P0 .6 1～ 3.70kg/ (hm2· a) ,K6 .6 6～ 39.6 1kg/ (hm2· a) ,Ca17.90～ 2 0 .91kg/ (hm2· a) ,Mg3.2 1～ 9.85 kg/ (hm2· a)。与针叶树人工林相比 ,天然阔叶林凋落叶分解过程中较快的养分释放和较高的养分释放量有利于促进养分再循环 ,这对地力?

山东省生态茶园与普通茶园小气候特征的比较

为了掌握山东省生态绿茶产地的小气候特征,选取山东省日照市某茶厂所属的生态茶园与普通茶园,对其小气候特征进行了对比分析。结果表明:与普通茶园相比,生态茶园在夏季、秋季的太阳辐射强度分别降低124.19,58.60 W/m2;地表温度分别降低2.78,2.40℃;气温降低1.3,1.0℃;1.5 m高处的空气相对湿度在四个季节比普通茶园分别高出1.86,6.44,7.71,5.70个百分点;风速分别降低0.39,0.27,0.20,0.12 m/s。由此表明:生态茶园系统具有缓温降热、提高空气湿度、降低风速等有利于茶树生长的小气候条件,从根本上改善茶树的生态环境,为茶叶的生态高产提供有利的保障。

两种不同种植模式下湖北贝母生长调查及性状构成分析

目的:通过实地调查和分析筛选出湖北贝母较优的种植模式。方法:对厚朴林下种植湖北贝母及单作湖北贝母两种种植模式下湖北贝母的生长状况进行调查,并对其性状构成进行分析和评价。结果:除叶长、叶宽外,其余性状均表现为林下模式大于单作模式;地上部分性状叶片数、叶长与株高显著正相关,地下部分性状与地上重均显著正相关;新生根数、须根数、鳞茎重、须根重及地上重在第1主成分特征向量中载荷因子较高;须根数、新生根数、鳞茎重、须根重、须根长、地上重与第1排序轴显著正相关。结论:林下贝母生长状况优于单作贝母,即林下种植模式更适宜湖北贝母的生长,在实际生产中应优先考虑。地下部分性状新生根数、须根数、鳞茎重、须根重是反映湖北贝母生长状况的主要指标,后续试验设计时应优先考虑。

Plantation transformation alternatives determine carbon sequestration capacity – a case study with Pinus massoniana in southern China

It is widely accepted that global warming, which results from the increase of carbon dioxide(CO2) in the atmosphere, has a negative impact on human beings. Forests are the largest terrestrial ecosystem and play an important role in carbon sequestration. Many studies have documented that a mixed-species forest can sequester more carbon than single species forests, depending on the site conditions. Therefore, uneven-aged mixed-species forest management has been receiving more and more attention. In 2008, an experiment with five silvicultural models for Pinus massoniana(Chinese red pine) plantation, i.e., four transformation treatments(A1-A4) and one control treatment(A5) was conducted in the Experimental Center of Tropical Forestry of Chinese Academy of Forestry in Pingxiang City, in southwestern Guangxi Zhuang Autonomous Region, southern China. The four transformation treatments(A1-A4) enriched Castanopsis hystrix, Manglietia glance, Erythrophleum fordii and Quercus griffithii with differed richness and composition after thinning(removed 70% of trees), while no silvicultural treatment was used in the control treatment A5. In this study, we compared the carbon sequestration capacity of these five silvicultural models based on periodic annual increment and growth rate. Our results indicated that all the transformation treatments performed significantly better in carbon sequestration than the control treatment. A significant difference was also observed amongst the transformation treatments. Moreover, the transformation treatment A1 with enrichment species Castanopsis hystrix(350 trees·ha^-1) and Manglietia glance(350 trees·ha^-1) was determined to be the optimal model for maximum carbon sequestration because of its high tree-level growth rate and high economic value of enriched plantings, which could be popularized in other places. Our results further confirmed that management using mixed-species forests is a better approach to combat climate change than using monoculture forests.

马尾松与乡土阔叶树种凋落叶分解氮磷释放的混合效应

为探明乡土阔叶树种与马尾松(Pinus massoniana Lamb.)凋落叶混合分解过程中的养分释放特征,以马尾松、檫木(Sassafras tzumu)、香樟(Cinnamomum camphora)以及香椿(Toona sinensis)凋落叶为实验对象,按照不同树种组合、不同混合比例组合为35个处理后进行野外分解试验研究.结果发现:所有凋落叶的N、P释放率均表现出前期较快、后期较慢的变化趋势.大部分混合凋落叶的N和P释放率在分解过程中表现出非加和效应,且主要表现为协同效应.随分解时间延长协同效应表现出分解前期最强,之后减弱,后期再增强的趋势.31个混合处理中,马尾松+香樟+香椿组合中6:1:3、7:2:1和7:1:2,马尾松+檫木+香椿组合中7:1:2、6:1:3和6:2:2,以及马尾松+檫木+香樟+香椿组合中7:1:1:1和6:1:1:2的N、P释放率在两年的分解时间中有超过一半时期表现出协同效应.可见阔叶占30%-40%时且混合有香椿凋落叶的组合最利于整个混合凋落叶的N、P释放,加快养分归还.因此,在后期马尾松纯林的“混交化”近自然改造中,可根据实际造林需求,选择马尾松+香樟+香椿、马尾松+檫木+香椿或马尾松+檫木+香樟+香椿的树种搭配及合适的混交比例,提高凋落叶分解的养分归还量,有助于维持林下土壤肥力.(图4表4参46)

Pure and mixed plantations of Persian walnut (Juglans regia L.) for high quality timber production in Chile, South America

Aims Persian walnut(Juglans regia L.),an interesting forest species for the veneering industry,requires adequate management to produce valuable high-quality logs.Since species associations and management level can improve stand productivity,the novelty of this work was to assess Persian walnut performance in different planting mixtures and in pure plantations conditioned to management intensity.Methods Growth,straightness and survival measurements were taken annually for 7 years after planting pure and mixed plantations under two contrasting management scenarios.Diseases were recorded at Age 7 in all plantations.Under each management intensity,besides the monoculture,three mixtures were tested:a mixture of only main forest species,main forest species plus one arboreal companion species,Black alder(Alnus glutinosa L.)and main species plus the shrub Russian olive(Elaeagnus angustifolia L.)as nurse species.A test of interaction between plantation type and management scenario was conducted using repeated growth data.Important Findings The interaction was significant,indicating the presence of different mechanisms underlying plantation effects under high and low management level.Compared with pure plantations,Persian walnut associated with the nurse shrub exhibited 78%higher height and 53%higher diameter growth in plantations under low management.Health benefits(lower presence of walnut blight than in the monoculture)and better straightness were also found in the association including the shrub when the management intensity was not high.These beneficial effects in the presence of Russian olive were not present under high management intensity(irrigation,fertilization,tutoring and frequent pruning).Site-specific designs for Persian walnut plantations would depend on the foreseen management intensity.