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1.
Wibke Himmelsbach Eduardo J. Treviño-Garza Humberto González-Rodríguez Marco A. González-Tagle Marco V. Gómez Meza Oscar A. Aguirre Calderón A. Eduardo Estrada Castillón Ralph Mitlöhner 《European Journal of Forest Research》2012,131(2):355-367
Water availability and salt excess are limiting factors in Mexican mixed pine-oak forest. In order to characterise the acclimatation
of native species to these stresses, leaf water (Ψw) and osmotic potentials (Ψs) of Juniperus flaccida, Pinus pseudostrobus and Quercus canbyi were measured under natural drought and non-drought conditions under two different aspects in the Sierra Madre Oriental.
Factorial ANOVA revealed significant differences in Ψw and Ψs between two aspects, species and sampling dates. In general, all species showed high predawn and low midday values that declined
progressively with increasing drought and soil–water loss. Seasonal and diurnal fluctuation of Ψw and Ψs were higher for J. flaccida and Q. canbyi than for P. pseudostrobus. Leaf Ψw and Ψs were mainly correlated with soil water content, while Ψs of P. pseudostrobus were hardly correlated with environmental variables. Thus, species have different strategies to withstand drought.
P. pseudostrobus was identified as a species with isohydric water status regulation, while J. flaccida and Q. canbyi presented water potential patterns typical for anisohydric species. The type of water status regulation may be a critical
factor for plant survival and mortality in the context of climate change. Nevertheless, for precise conclusions about the
advantages and disadvantages of each type, further long-term investigations are required. 相似文献
2.
In 2000, one-year-old seedlings of pyrenean oak (Quercus pyrenaica Willd.) and sessile oak (Quercus petraea [Matt.] Liebl) were planted in a thinned and an unthinned plot in a pinewood (Pinus sylvestris), and in a nearby clearing. In summer 2002 and 2003, water relations and gas exchange parameters were measured to address the impact of drought on the seedlings. Chlorophyll a fluorescence was also measured to explore leaf photochemistry and a possible non-stomatal limitation to photosynthesis (A). Reduction in stomatal conductance (g) in response to the decrease of predawn water potential (Ψpd) resulted the main cause affecting net carbon uptake. Water potential at midday (Ψmd) was similar in both species but Quercus petraea was more sensitive to soil water deployment occurred along summer, showing slightly lower Ψpd because worse recover of water potential during night. Rate of photosynthesis was higher in Q.␣pyrenaica probably in relation to its greater leaf mass per area (LMA) and nitrogen content per leaf area (Na). Mortality was highest in the clearing and lowest in the thinned pinewood. Throughout the summer, soil moisture was higher in the thinned area, possibly because of the reduction in tree transpiring surface and interception of rainfall. Accordingly, Ψpd of both species was higher in the thinned site. 相似文献
3.
Analysis on the daily courses of water potential of nine woody species from Cerrado vegetation during wet season 总被引:5,自引:0,他引:5
IntroductionAS the concept of water pot6ntial (% was introduced by Saltyer (1967), there were some argumentson it among some physiologist. Some physiologistsopposed it beCause they believed Tvalue might notbe the beSt parameter for describing physiologicalprocesses. However, this concept has been accept6dand used by most plant physiologists for many years(Kramer 1988, Schulze et al. 1988, Passioura 1988,Boyer 1989).ACcording tO our experience (Prado et al. 1994,1995), we believed-t.hat th… 相似文献
4.
Incorporating cover crops into Christmas tree plantations may potentially improve soil fertility, tree growth and quality
and be an alternative to commercial nitrogen (N) fertilizers. However, cover crops may compete with the trees for water and
other nutrients than N. This study was carried out to assess whether soil fertility, tree survival and growth could be improved
by incorporating leguminous and non-leguminous cover crops into the Fraser fir (Abies fraseri) production system. Dutch white clover (Trifolium pratense), alfalfa (Medicago sativa) and perennial ryegrass (Lolium perenne) were grown in a newly established Fraser fir plantation using two cover crop management practices; no banding (NB) by growing
each cover crop throughout the entire plot and banding (B) by creating a 61 cm-wide bare zone centered on the tree rows. A
conventionally-managed system (CONV) was used as a control. The cover crop aboveground biomass and N content were assessed.
Soil available N (NO3
− and NH4
+) and N mineralization were measured at 0–15, 15–30 and 30–45 cm soil depths. Tree survival, growth, photochemical efficiency
of photosystem II (Fv/Fm), branch water potential (Ψw) and foliar nutrients were also evaluated. Biomass production was as high as 13.9, 10.2 and 5.9 Mg DM ha−1 year−1 for clover, alfalfa and ryegrass, respectively. Cover cropping increased soil available N by 1.5- and 2.2-fold relative the
CONV in the top soil layer in 2007 and 2008, respectively. Tree seedling survival and growth in the B and CONV systems were
similar. In contrast, NB treatments resulted in poor seedling survival and growth relative to the B and CONV plots. Plant
Ψw and Fv/Fm decreased significantly for A. fraseri seedlings on the NB treatments relative to their counterparts on the B and CONV plots. However, cover cropping had marginal
effects on foliar nutrients. Cover cropping with banding can be an efficient strategy for maintaining productivity in Fraser
fir Christmas plantations. 相似文献
5.
To compare the responses to repeated flooding and drought of Salix gracilistyla, which grows on coarse gravel substrates, and Salix subfragilis, which grows on fine silt or clay substrates, we measured pre-dawn leaf water potential (Ψw
pd), osmotic adjustment (Ψw
tlp, Ψo
sat), and biomass production of cuttings under greenhouse conditions. The experimental design involved a control and four treatments
that crossed 1 or 3-week flooding (F) with 1 or 2-week droughts (D). Ψw
pd was reduced after 2 weeks of drought when preceded by 1 week of flooding. Neither species increased osmotic adjustment in
response to increased duration of drought between repeated 3-week flooding. Moreover, a decrease in the ratio of leaf biomass
to total biomass or an increase in the ratio of root biomass to total biomass with longer drought repetitions was not observed
for either species. The root ratio of S. gracilistyla was more strongly inhibited by flooding than that of S. subfragilis. The shoot-to-root ratio of S. subfragilis was higher than that of S. gracilistyla in all F combinations. The hypertrophied lenticel ratio of S.
gracilistyla after 1 week of flooding was nearly the same as that after 3 weeks of flooding, whereas values for S. subfragilis after 1 week of flooding were lower than those after 3 weeks of flooding. The low allocation to roots and the generation
of hypertrophied lenticels by S. gracilistyla in response to flooding, as compared with S. subfragilis, seem to be related to the different habitat substrate conditions of the two species. 相似文献
6.
Edith L. Camm Robert D. Guy David S. Kubien Darren C. Goetze Salim N. Silim Philip J. Burton 《New Forests》1995,10(1):55-77
Logistic problems of large-scale reforestation necessitate freezer-storage of conifer seedlings. Frozen stock is typically thawed slowly at low temperatures for up to several weeks before shipping to the plantation site, but the necessity of this practice is questionable. Experiments were conducted to study effects of different thawing regimes on photosynthetic recovery, frost hardiness, water relations and growth initiation in interior spruce (white spruce (Picea glauca (Moench) Voss) and Engelmann spruce (Picea engelmannii Parry) hybrid complex). One year-old container-grown seedlings were planted after 9 days post-storage thawing at 5–15 °C or still frozen, directly from the freezer. During a 29 day observation period after planting, both groups showed changes in xylem water potential (w), carbon fixation (A), stomatal conductance (g
s
), chlorophyll a fluorescence and xanthophyll cycle pigments. Treatment differences in fluorescence and pigments peaked within one hour after planting. All differences in w, A, g
s
, ratio of internal to external CO2 concentration (Ci/Ca), fluorescence, pigments and root number disappeared after 5 to 8 days. Terminal bud burst occurred 2.6 days earlier in the pre-thawed seedlings. When seedlings were rapidly thawed in the dark at 21 °C they achieved maximum w (–0.2 MPa) in 3–4 hour. When evaluated 45 min after planting, A, g
s
, Ci/Ca and fluorescence values of rapidly thawed seedlings were intermediate between those for seedlings planted frozen or after 9 days slow thawing, showing that the recovery process was well underway a few hours after removal from the freezer. These results suggested that a suitable on-site operational protocol for rapid thawing might be to lay frozen bundles on the ground at ambient temperature overnight. In field trials of this method, rapidly thawed seedlings broke bud 3.3 days later than slowly thawed stock and also had greater frost hardiness at time of planting. Height, shoot and root mass did not differ after 3 months growth. 相似文献
7.
Fude Liu Ming Zhang Wenjin Wang Shuning Chen Jianwei Zheng Wenjie Yang Fengqin Hu Shuqing An 《Frontiers of Forestry in China》2009,4(1):75-84
In order to make clear the relationships between photosynthesis and leaf N, leaf P and SLA of tropical trees, and test the
differences in the relationships among life-form groups (trees, shrub-like trees and shrubs), seedlings and saplings of 101
species from a tropical montane rain forest, located in the Diaoluo Mountain of Hainan Island, were selected. The net photosynthesis
based on area and mass (A
area and A
mass), leaf nitrogen content based on area and mass (N
area and N
mass), leaf phosphorus content based on area and mass (P
area and P
mass) and specific leaf area (SLA) were measured and/or calculated. The results showed that A
area and A
mass tended to follow the order of shrubs > trees > shrub-like trees. One-way ANOVA showed that the difference in A
area between shrubs and shrub-like trees was significant (p<0.05), and for A
mass there were significant differences between shrubs and shrub-like trees and between shrubs and tree species (p<0.05). The relationships between A
area and N
mass were highly significant in all three life-form groups and for all species (p<0.0001). The correlation between A
area and P
mass was highly significant in shrubs (p = 0.0038), shrub-like trees (p < 0.0002) and for all species (p<0.0001), but not significant in trees (p>0.05). The relationship between A
area and SLAwas highly significant in shrubs (p = 0.0006), trees (p<0.0001) and for all species (p<0.0001), however this relation was not significant in shrub-like trees (p>0.05). The relationships between A
mass and leaf N and SLA were highly significant in all three life-form groups and for all species (p<0.0001). For A
mass and leaf P, there were significant correlations in tree groups (p = 0.0377) and highly significant correlations in shrub groups (p = 0.0004), shrub-like tree groups (p = 0.0018) and for all species (p < 0.0001). Stepwise regression showed that predicted A
mass values were closer to the observed values than those for predicted A
area values. Thus, it can be concluded that the relationships obtained from seedling and sapling measurements are close to those
from mature individuals; correlations between photosynthesis and N
mass, P
mass and SLA traits are significant and the relationships are stronger and more stable for A
mass than for A
area.
__________
Translated from Acta Ecologica Sinica, 2007, 27(11): 4651–4661 [译自:生态学报] 相似文献
8.
In direct-seeded woodlands and nursery seed-beds, weeds canrapidly invade newly sown areas, leading to death or suppressionof tree seedlings. Hand weeding is usually expensive, and thesafe use of broad-spectrum contact herbicides is seldom possible.Hence in the work reported here, the tolerance of young treeseedlings to the potentially more selective, post-emergenceherbicides clopyralid, cycloxydim and metazachlor, was tested.Seedlings of Fraxinus excelsior L. (ash) with two to four expandedtrue leaves (2–4 ETL), Fagus sylvatica L. (beech) (2–4ETL), Acer pseudoplatanus L. (sycamore) (4–6 ETL), Prunusavium L. (cherry) (6–8 ETL) and Quercus robur L. (oak)(6–8 ETL) appeared to tolerate applications of cycloxydimat a rate of 0.45 kg a.i. ha–1. Applications of 0.2 kga.i. ha–1 clopyralid or 1.25 kg a.i. ha–1 metazachloralso appeared to be generally tolerated, but did cause somesuppression of annual growth increment in Q. robur, P. avium,F. sylvatica and A. pseudoplatanus, particularly where repeatapplications were made to the earliest growth stages. Seedlingsurvival was unaffected by any herbicide treatment. Mixturesof all three herbicides were no more damaging than the sameherbicides applied separately. Therefore, depending on treespecies and growth stage, it appears that clopyralid could potentiallybe safely used to control a range of herbaceous weed species,metazachlor a variety of seedling or germinating weeds and cycloxydima range of established grass weed species, in direct sown woodlandsor nursery seed-beds, although further research is advisableto confirm crop safety. 相似文献
9.
Acacia melanoxylon R. Br. (Blackwood) is a native Australian species that has invaded woodlands and degraded natural habitats in the north western
Iberian Peninsula (Galicia), Spain. Several phenolic (p-hydroxybenzoic, vanillic, p-coumaric, syringic, protocatequic, ferulic acids) and flavonoids (catechin, luteolin, rutin, apigenin, and quercetin) were
identified from methanol extracts of flowers and phyllodes of A. melanoxylon by HPLC. Flowers and phyllodes of A. melanoxylon were soaked separately in the water in a ratio of 1:1 (w/v) for 24 h to prepare aqueous extracts (100, 75, 50 and 25%) and
distilled water was used as control. The seeds of three native plants, cocksfoot (Dactylis glomerata), perennial ryegrass (Lolium perenne), common sorrel (Rumex acetosa) and a general test crop lettuce (Lactuca sativa) were grown in perlite culture and aqueous extracts of A. melanoxylon (flowers and phyllodes) were applied exogenously at various concentrations. A. melanoxylon flowers extract (100%) inhibited the shoot length of D. glomerata and L. perenne by 31 and 20% of the control, respectively. Leaf and root fresh weights of L. perenne, D. glomerata, and L. sativa were reduced after treatment with acacia flowers and phyllodes extract. Leaf relative water content of D. glomerata and L. perenne was reduced by acacia flowers and phyllodes extract at all concentrations. Both extracts reduced leaf osmotic potential in
D. glomerata, L. perenne and L. sativa. Quantum efficiency of open PSII reaction centers (Fv/Fm) and quantum yield (ΦPSII) of photosystem II were decreased in L. perenne, D. glomerata; R. acetosa and L. sativa after treatment with acacia flowers/phyllodes extract at 100% concentration. Acacia flowers and phyllodes extract (100%)
inhibited the qP level during all 6 days in D. glomerata, L. perenne, R. acetosa and L. sativa. A significant reduction in NPQ was observed during different days in all four plant species due to Acacia flowers and phyllodes
extract (100%). The δ13C ratios were less negative in L. perenne, D. glomerata and L. sativa as compared to the control. A. melanoxylon flowers and phyllodes extract (100%) significantly reduced leaf protein contents in D. glomerata, L. perenne and in L. sativa. 相似文献
10.
Containerized seedlings of three commercially important tropical species were grown under four different light treatments
[i.e., 100 (open site), 45, 22 and 10% sunlight] for 130 days. Light-saturated photosynthesis (A
max) and light saturation estimates (LSE) reflected the species successional status with Terminalia superba Engl. and Diels, the pioneer species showing largest mean A
max and LSE at 100% sunlight, whereas at 10% sunlight, it showed the lowest A
max and LSE. At 22% sunlight, Cedrela odorata L., an intermediate successional species had greater A
max and LSE than Mansonia altissima A. Chev., a non-pioneer light demander and T. superba. T. superba had the lowest relative growth rate (RGR) at 10% sunlight and greatest net assimilation rate (NAR) at 100% sunlight; although
a higher RGR at this light level was not seen for this species. Strong and positive linear mean A
max–mean NAR relationship of C. odorata and T. superba indicated that differences in leaf photosynthetic rates of the two species were reflected in their NAR, which increased with
increasing light. At final harvest, superior biomass production was found at 45% sunlight for all the species. Seedling responses
in specific leaf area, leaf area ratio, leaf mass ratio and root mass ratio were typically those found along a light gradient.
At the 100% sunlight, intrinsic water-use efficiency (WUE), F
v/F
m and final root system of the plants was generally superior in T. superba but at 10% sunlight, WUE was inferior in T. superba when compared to C. odorata and M. altissima, reflecting the respective species’ short-term acclimation to high or low light. Results of this study may have practical
use in screening tropical tree species for use in plantation forestry. 相似文献
11.
The light response curve and the intercellular CO2 concentration response curve of CO2 assimilation rate were investigated together with the light conditions at the four different heights within the beech crown
from 1995 to 1997 on Mt. Fuji in Japan. On the seasonal fluctuation, the CO2 assimilation rate at light saturated condition increased rapidly in May, and attained to the maximum between the end of June
and July, thereafter, slightly decreased until the middle of August and rapidly decreased in September and October. The daily
sum of photosynthetic photon flux density attenuated with deeping within the crown, and particularly, the relative value on
2nd position dropped to only 30%. TheA
max decreased from 10 to 5μmol m−2 s−1, approximately, with deeping within the crown. The light saturation point, quantum yield, light compensation point and dark
respiration rate also varied with deeping. These results suggest that the photosynthetic properties vary gradually from sun
to shade leaves along the light attenuation within a beech crown. At light saturated condition, the stomatal conductance and
mesophyll conductance were strongly correlated withA
max among the four different heights (r > 0.96, respectively). TheC
i/C
a ratio was around 0.8, and there were no remarkable differences among the four different heights. These results suggest that
the vertical gradient ofA
max depends on the variation of mesophyll conductance. The stomatal conductance may be also one of the major factor in the vertical
gradient ofA
max. However the intercellular CO2 concentration doesn’t influence the vertical gradient ofA
max within the crown.
This work is supported by the Sasagawa Scientific Research Grant from The Japan Science Society and Grant-in-Aid for Scientific
Research (C). 相似文献
12.
Wood age, i.e., number of years that have passed after the annual rings of xylem tissue developed from cambium, had a strong
negative impact on the volatile acid content of wood of the two oak species, Quercus petraea and Q. frainetto. Up to 80% of acetyl groups were cleaved off in the heartwood zones close to the pith if the living oak trees were about
200 years old. 相似文献
13.
Do multipurpose companion trees affect high value timber trees in a silvopastoral plantation system?
Establishment of native timber trees on deforested land may contribute to the livelihood of farmers, to improved ecosystem
services and to increased greenhouse gas uptake. Here, we present a new silvopastoral planting design to assess species performance
and interspecific competition or facilitation effects among native timber and multipurpose trees in Central America. Two timber
species, Tabebuia rosea and Cedrela odorata, were established in three low-density planting regimes allowing combined tree and future livestock production: (1) solitary
planting, (2) companion planting with Guazuma ulmifolia, and (3) companion planting with the nitrogen-fixing Gliricidia sepium. We quantified survival, growth and reforestation potential of the two timber species subjected to the different planting
regimes for the first 2 years after establishment. Nitrogen concentration as well as stable nitrogen and carbon isotope composition
(δ15N, δ13C) of leaves of the timber saplings were determined. T. rosea showed higher survival and better growth than C. odorata under varying environmental conditions (soil, concomitant vegetation). Performance of the timber saplings was unaffected
by either companion species. Planting regimes had no effect on foliar nitrogen concentration and δ15N of the two timber species, although δ15N values indicated nitrogen fixation activity in G. sepium trees. Planting regimes affected foliar δ13C values in T. rosea. δ13C values were significantly higher in solitarily growing individuals, suggesting lower exposition to water stress conditions
in saplings surrounded by companion species. As we found positively correlated growth traits among timber and multipurpose
trees, a combined planting may benefit farmers by providing additional goods and services. 相似文献
14.
This article presents a theoretical verification of the reinforced-matrix hypothesis derived from tensor equations, σ
W = σ
f + σ
m and ε
W = ε
f = ε
m (Wood Sci Technol 32:171–182, 1998; Wood Sci Technol 33:311–325, 1999; J Biomech Eng 124:432–440, 2002), using classical
Mori-Tanaka theory on the micromechanics of fiber-reinforced materials (Acta Metall 21:571–574, 1973; Micromechanics — dislcation
and inclusions (in Japanese), pp 141–147, 1976). The Mori-Tanaka theory was applied to a small fragment of the cell wall undergoing
changes in its physical state, such as those arising from sorption of moisture, maturation of wall components, or action of
an external force, to obtain 〈σ
A〉D = ϕ·〈σ
F〉I + (1−ϕ)·〈σ
M〉D−I. When the constitutive equation of each constituent material was applied to the equation 〈σ
A〉D = ϕ·〈σ
F〉I + (1−ϕ)·〈σ
M〉D−I, the equations σ
W = σ
f + σ
m and ε
W = ε
f = ε
m were derived to lend support to the concept that two main phases, the reinforcing cellulose microfibril and the lignin-hemicellulose
matrix, coexist in the same domain. The constitutive equations for the cell wall fragment were obtained without recourse to
additional parameters such as Eshelby’s tensor S and Hill’s averaged concentration tensors AF and AM. In our previous articles, the coexistence of two main phases and σ
W = σ
f + σ
m and ε
W = ε
f =ε
m had been taken as our starting point to formulate the behavior of wood fiber with multilayered cell walls. The present article
provides a rational explanation for both concepts. 相似文献
15.
Microclimate regimes following gap formation in a montane secondary forest of eastern Liaoning Province, China 总被引:1,自引:0,他引:1
ZHU Jiao-jun TAN Hui LI Feng-qin CHEN Mei ZHANG Jin-xin 《林业研究》2007,18(3):167-173
In order to improve the understanding of the role of a canopy opening/gap on the physical environments in a secondary forest in Northeastern China, a case study was conducted in and around a small irregular gap in a montane secondary forest. The secondary forest, which was severely disturbed by human beings about 50 years ago, was dominated by Quercus mongolica and Fraxinus rhynchophyllaan. Temporal variation in photosynthetic photon flux density (PPFD), air temperature (TA) at 10 cm above the ground, soil temperature (Ts) and soil water content (SWC) at top-layer (0-15 cm) and sub-layer (15-30 cm) were measured from May to September after the second year since the formation of the small gap (the ratios of gap diameter to stand height were less than 0.5) in 2006 respectively. Results indicated that the highest value of PPFD occurred at the northern edge of the gap, particularly at the beginning of the growing season in May. On sunny days, the highest value of PPFD appeared earlier than that on overcast days. Maximum and mean values of TAwere higher in the northern part of the gap, and the minimum values of TAwere at the southern edge of the gap. Soil temperature varied obviously in the gap with the range from 1 to 8 ℃. Maximum values of Ts occurred at the northern part of the gap, which was significantly correlated with the maximum values of TA (R = 0.735, P〈0.05). SWC was higher in the top-layer (0-15 cm) than that in sub-layer (15-30 cm), but the difference of them was not significant (p〉0.05), which might be attributed to the small gap size and the effects of aboveground vegetations. From these results, the maximum of PPFD in the study area occurred at the northern part of the gap, which was consistent with the results observed in north hemisphere, but the occurrence time varied with the differences of the latitudes. The highest values of air and soil temperatures also occurred in the northern part of the gap because they were affected by the radiation. However 相似文献
16.
This study defined the field performance potential for 34 genotypes that composed a somatic seedlot of interior spruce (Picea glauca (Moench) Voss × Picea engelmannii Parry ex. Engelm.) crosses, white spruce (P. glauca (Moench) Voss) crosses, or a mixture. Each genotype was measured for morphological attributes: height, diameter, shoot dry
weight, root dry weight, shoot-to-root ratio, height-to-diameter ratio at time of lifting. Each genotype was also measured
for physiological attributes of cuticular transpiration (TFDcut), osmotic potential at turgor loss point (Ψtlp) and freezing tolerance (index of injury at −6°C and −4°C; II@−6 & II@−4) during inactive and active shoot growth phases. Shoot growth potential (SGP = length of new leader elongation) and root
growth potential (RGP) were conducted under four environmental regimes: nutrient-rich/well-watered, nutrient-poor/well-watered,
low root temperature, and planting stress conditions. The somatic seedlot met target height, diameter and RGP standards for
a plantable seedling crop in British Columbia, Canada, though genotypes differed in morphology at time of lifting. These genotypes
also differed in their measured physiological attributes (TFDcut, Ψtlp, II@−6 and II@−4) at time of lifting and during active shoot growth. Genotypic differences were also found for SGP and RGP under different
testing environments. A stock quality assessment program describing elite genotypes within a seedlot can aid foresters in
applying benefits of clonal forestry.
Raymund S. Folk is now self employed. 相似文献
17.
Information is lacking on how yellow-cedar (Chamaecyparis nootkatensis (D. Don.) Spach) stecklings compare with seedlings in their response to potentially limiting field site environmental conditions. Before planting, yellow-cedar seedlings and stecklings were characterized at 5 and 22°C root temperatures for gas exchange parameters (n=6), root growth capacity (n=12) and plant water movement (n=6) using a fully randomized design in a controlled environment growth room. Seedlings, compared with stecklings (t-test), showed a faster (p=0.01) recovery of net photosynthesis (Pn) and stomatal conductance (gwv) after root temperature increased from 5 to 22°C. Seedlings had greater (p=0.05) root growth capacity (number of new roots 0.5 cm in length) than stecklings after 14 days at 22°C and after 14 days at 5°C followed by 15 days at 22°C. Seedlings had a lower (p=0.01) resistance to plant water movement measured after 29 days (14 days at 5°C followed by 15 days at 22°C root temperature).Seedlings and stecklings were planted on a coastal British Columbia field site and monitored for 1) morphological development and physiological response to ambient site conditions throughout the first growing season, and 2) physiological response to drought conditions during late summer. Both trials used a fully randomized design and stock type means were compared using t-tests (p=0.10, 0.05, and 0.01). Initially, seedlings were taller (p=0.01) than stecklings but otherwise morphologically similar (n=20). Over a 35 week period after planting, stecklings had greater incremental height growth, while seedlings produced a greater (p=0.01) number of roots extending out of the root plug. Seedlings and stecklings (n=6) had similar Pn and gwv patterns under late spring environmental conditions. However, seedlings had greater Pn and gwv under cold temperature (p=0.05 and p=0.1, respectively) and drought conditions (p=0.05 and p=0.01, respectively), but during conditions of high evaporative demand and adequate soil moisture, stecklings had greater (p=0.01) Pn and gwv. Seedlings had higher (p=0.01) daily integrated shoot water potential values (D) at different times during the growing season, and maintained higher (p=0.05) predawn (pd) shoot water-potential values, higher (D) (p=0.01) and lower (p=0.01) resistance to plant water movement (RSPAC) during drought conditions. 相似文献
18.
A cost-benefit analysis (CBA), focusing on the Net Present Value(NPV) of a current genetic improvement programme for broadleavedtrees was performed using Monte Carlo simulation, with an add-onsoftware package (‘@RISK’) specifically designedto take account of the uncertainty associated with long-termprojects. The CBA was undertaken by evaluating the total costof achieving a given estimated genetic gain via each of thebreeding strategies considered. The estimated values of geneticgain were then expressed in terms of the increased value oftimber output. Cash flows were based on current estimated treeestablishment costs and anticipated productivity of the fourtree species included in the programme (ash, Fraxinus excelsior;sycamore, Acer pseudoplatanus; wild cherry, Prunus avium; andsweet chestnut, Castanea sativa), when grown primarily for atimber crop. The results of the NPV analysis indicated thattree improvement could be cost-effective for small genetic gains,but that current breeding strategies differed markedly in theircost-effectiveness. Improvement scenarios based on conventionalselection and testing techniques, such as simple mass selectionand recurrent selection (seed orchards), were found to be themost cost-effective at a discount rate of 6 per cent. In contrast,tree improvement scenarios based on clonal techniques consistentlyranked lowest, despite the much higher genetic gains achieved.The use of clonal techniques was found to be particularly hardto justify with broadleaved tree species of relatively low timbervalue. Overall, with the current state of broadleaved timbermarkets in the UK, and the current areas being planted, investmentin basic genetic improvement of high-value timber species appearsfinancially worth while. The estimated direct additional financialbenefit to growers, if new planting is undertaken with improvedstock as opposed to unimproved stock, is estimated to rangefrom £38 ha–1 with Simple Mass Selection to £100ha–1 with Simple Recurrent Selection. 相似文献
19.
Chiraz Daas-Ghrib Pierre Montpied Mustapha Ksontini Erwin Dreyer 《European Journal of Forest Research》2011,130(4):503-512
Plasticity of structural and physiological leaf traits elicited by irradiance and soil nutrients was investigated in two sympatric
mediterranean oaks: a sclerophyllous (Quercus suber L.) and a non-sclerophyllous species (Q. canariensis Willd.). Seedlings were grown for 2 years in pots in a 2-way crossed factors design. Leaf mass-to-area ratio (LMA) and nitrogen
were recorded, and photosynthetic capacity (i.e. the apparent maximal carboxylation rate by rubisco, V
cmax) was derived from response curves of net CO2 assimilation (A) versus intercellular CO2 mol fraction (C
i). Structural equation modelling was applied to the data for disentangling the complex correlation structure between variables.
The two species differed significantly in photosynthetic nitrogen use efficiency (PNUE). They displayed the expected responses
to irradiance, with large increases in LMA, V
cmax and nitrogen per unit leaf area and decreases in mass-based nitrogen content. Nutrient availability modulated severely leaf
N content (mass- and area-based) and mass-based maximal carboxylation rate, but not the plastic response of all these parameters
to irradiance. Irradiance primarily modulated leaf structure (LMA), and secondarily nitrogen content, while nutrient availability
modulated directly nitrogen content. Nitrogen content in turn had a severe impact on mass-based photosynthetic capacity. It
is concluded that in young trees solely leaf structure displayed irradiance-elicited plasticity. This plasticity was not modulated
by nutrient availability and was similar in a sclerophyllous and a non-sclerophyllous species. 相似文献
20.
Since the end of the glacial age, Picea koyamae has been sparsely distributed in Japan as a relict species and is presently threatened with extinction. We investigated the
population structure and genetic structure of nine populations of P. koyamae. Population size was assessed at 9–135 individuals in habitats ranging from 0.5 to 11.5 ha, and seedlings and saplings were
observed in all but one particular population, which had a Sasa-type (bamboo grass) forest floor. The effective number of alleles per locus (N
e) within peripheral populations in the Yatsugatake Mountains was 1.8–2.7, much lower than that of core populations in the
Akaishi Mountains (2.8–4.3) using five nuclear simple sequence repeat loci. This finding suggests that genetic variation in
these populations has been reduced by isolation from other populations. The standardized genetic differentiation among populations
(G′
st
) was 0.410 and higher than that found in other Japanese conifers, suggesting that isolation and inbreeding have progressed
in this species. In two isolated populations at the Yatsugatake Mountains, the fixation index (F
is
) was 0.315–0.354, much higher than the values determined for the other populations (−0.188 to 0.263). This suggests that
these two populations have survived several generations while increasing the degree of inbreeding. However, the highest seedling
density was in a population with low genetic variation and high F
is
. The most serious problems at present appear to be the declining number of mature trees and the deterioration of suitable
environments for seedling establishment. 相似文献