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1.
Microsite conditions influence plant development and resource allocation of Dactylis glomerata L. (orchardgrass), a traditional pasture species with potential as an understory crop in woodlots. A field experiment was
conducted to determine how open (O), shaded woodland (W) and open-to-shaded woodland transition zone (EO, EW) microsites influenced the quantity and distribution of nonstructural carbohydrate (TNC) and crude protein (CP) among plant
parts of defoliated orchardgrass. Plants established in spring (SP) or late summer (LS) were clipped each time mean sward
height reached 20 cm. Microsite conditions influenced nutritive value of herbage. Nutritive value was acceptable when not
more than 45–50% light attenuation (as a function of shading by nearby trees) occurred relative to open pasture. Twice as
much TNC accumulated in stembases of LS compared to SP plants. Concentrations of TNC were least in plants growing at W, regardless
of planting time. Stembase TNC depletion occurred in SP plants, regardless of microsite, and LS plants growing at W. CP concentrations
were greater in herbage from W compared to O sites, suggesting the N needs of the plant were met with minimal fertilizer N
inputs. The ratio of C:N and thus herbage energy expressed as total digestible nutrients (TDN), relative to CP declined as
shade increased. Increased protein content is offset by lower fiber, lower nonstructural carbohydrate and the possibility
of reduced preference by grazers. Nutritive value is improved by modest amounts of shade relative to plants growing in full
sunlight, and allowing cool temperate origin grasses to vernalize is beneficial in terms of productivity, nutritive value,
and persistence.
Ths US Government’s right ot retain a non-exclusive, royaltyfree license in and to any copyright is acknowledged. 相似文献
2.
Microsite influences on resource allocation related to silvopastoral swards undergoing repeated defoliation are unclear. Defoliating
traditional pasture species according to canopy development criteria may not be appropriate when the plants grow as understory
crops in woodlots. An experiment using container-grown plants was conducted under field conditions to determine how open (O),
shaded woodland (W) and open-to-shaded woodland transition zones (E
O, E
W), representing the partial shade conditions found in silvopastoral settings, influenced productivity and dry matter allocation
in Dactylis glomerata L. Plants established in spring (SP) and late summer (LS) were clipped each time mean sward height reached 20 cm. Dry matter
production differed for SP and LS plantings, and was greater in O than W sites. Dry matter allocation to shoots of SP plants
indicated some agronomic benefit associated with the E
O and E
W sites. Leaf mass did not vary with irradiance, but stembase mass did. The SP plants had numerous small tillers whereas LS
plants were composed of comparatively fewer but more massive tillers. Plants growing at O, E
O and E
W were similar, whereas plants in the W site were smaller and had the fewest tillers regardless of planting time. Results suggest
that defoliation management for shaded components of silvopastoral systems should be based on some index other than sward
height, and that management criteria might change during the growing season. Less intensive removal (e.g., 10-cm rather that
5-cm residue) should be considered for defoliated, shade grown plants, since this could allow more stembase and nonstructural
carbohydrate storage tissues to remain.
The US Government’s right to retain a royalty-free, non-exclusive copyright is achnowledged. 相似文献
3.
The impact of seed size and successional status on seedling growth under elevated CO2 was studied for five dry tropical tree species viz. Albizia procera, Acacia nilotica, Phyllanthus emblica, Terminalia arjuna and Terminalia chebula. Seedlings from large (LS) and small seeds (SS) were grown at two CO2 levels (ambient and elevated, 700–750 ppm). CO2 assimilation rate, stomatal conductance, water use efficiency and foliar N were determined after 30 d exposure to elevated CO2. Seedlings were harvested after 30 d and 60 d exposure periods. Height, diameter, leaf area, biomass and other growth traits (RGR, NAR, SLA, R:S) were determined. Seedling biomass across species was positively related with seed mass. Within species, LS seedlings exhibited greater biomass than SS seedlings. Elevated CO2 enhanced plant biomass for all the species. The relative growth rate (RGR), net assimilation rate (NAR), CO2 assimilation rate, R:S ratio and water use efficiency increased under elevated CO2. However, the positive impact of elevated CO2 was down regulated beyond 30 d exposure. Specific leaf area (SLA), transpiration rate, stomatal conductance declined due to exposure to elevated CO2. Fast growing, early successional species exhibited greater RGR, NAR and CO2 assimilation rate. Per cent enhancement in such traits was greater for slow growing species. The responses of individual species did not follow functional types (viz. legumes, non-legumes). The enhancement in biomass and RGR was greater for large-seeded species and LS seedlings within species. This study revealed that elevated CO2 could cause large seeded, slow growing and late successional species to grow more vigorously. 相似文献
4.
[目的]通过对比研究华山松和油松不同叶龄针叶形态、光合速率、叶绿素和叶氮含量对林窗式疏伐的响应,探讨林窗大小、叶龄和树种对林窗式疏伐后叶光合特性响应的影响。[方法]2008年在30年生华山松和油松混交人工林中,设置对照、小林窗(80 m2)和中林窗(110 m2)处理,2013年以对照样地内和林窗边缘华山松和油松为研究对象,测定其当年生、1年生和2年生叶比叶重(LMA)、单位叶面积叶绿素a(Chl a)、叶绿素b含量(Chl b)、氮含量(N)、最大净光合速率(Amax)、光合氮利用效率(PNUE)等指标。[结果]小林窗和中林窗疏伐对叶光合特性影响一致,均对当年生叶影响不显著,但显著改变了1年生和2年生叶绿素含量、N和PNUE,提高了其Amax。华山松叶LMA、叶绿素含量、N、Amax均低于油松,两树种多年生叶对林窗式疏伐的响应也明显不同:林窗边缘华山松1年生和2年生叶LMA和N与对照差异不显著,但叶绿素含量低于对照,PNUE和Amax显著高于对照;林窗边缘油松1年生和2年生叶LMA和PNUE与对照差异不显著,但N和Amax显著高于对照。[结论]80 110 m2林窗疏伐显著改变叶光合特性,提高其光合潜力;林窗疏伐影响1年生和2年生叶光合特性,对当年生叶影响不显著;华山松和油松对林窗式疏伐的响应特征存在差异。 相似文献
5.
Photosynthetically active radiation use efficiency (PARUE) of orchardgrass (Dactylis glomerata L.) and tall fescue (Schedonorus phoenix (Scop.) Holub) was determined. Leaf mass was harvested for canopies at different shade levels when each reached 20 cm height
with 5 cm residue for regrowth to simulate grazing. Total incident PAR at each site was summed for the growth period (S-PAR).
Values for PARUE were calculated from dried leaf mass divided by S-PAR. The more highly shaded plants reached 20 cm at lower
S-PAR. While overall leaf mass decreased linearly with shade induced decreases in S-PAR, PARUE increased exponentially. The
coefficients for the equations representing this exponential increase vary for forage species and may represent a useful index
for characterizing forage response to silvopastoral systems. 相似文献
6.
Tropospheric ozone (O3) is considered to be the air pollutant relating to the decline of Fagus crenata forest in Japan. In the present study, we assessed a risk of O3 impact on the growth of F. crenata in Japan, giving consideration to the effects associated with atmospheric nitrogen (N) deposition based on the experimental
study, national monitoring data for oxidant concentration and atmospheric N deposition, and a national vegetation survey.
The average and maximum O3-induced relative growth reduction (RGred) of F. crenata across Japan were estimated to be 3.2 and 9.7%, respectively. Current levels of atmospheric N deposition were found to significantly
affect the sensitivity of F. crenata to O3. When the N deposition was assumed as zero, the estimated average and maximum RGred were 2.3% and 5.7%, respectively. The inclusion of atmospheric N deposition data thus increased the estimated values for
average and maximum RGred (by 38% and 71%, respectively). Our results demonstrate that a change in the sensitivity to O3 associated with atmospheric N deposition is an important consideration in the risk assessment of O3 impact on the growth of F. crenata in Japan. 相似文献
7.
Fude Liu Wenjie Yang Ming Zhang Yuhong Liu Jianwei Zheng Wenjin Wang Shiting Zhang Zhongsheng Wang Shuqing An 《European Journal of Forest Research》2010,129(6):1093-1108
In order to test whether the strategy of resource acquisition varies with life form, leaf texture and canopy gradient, we
measured light-saturated net photosynthetic capacity (A
max-mass) and leaf nitrogen and phosphorus concentrations (N
mass and P
mass) for 127 woody species of understory (small shrubs and tree seedlings) and 47 woody species of canopy (large shrubs and tree
adults) in a tropical montane rain forest of Hainan Island, South China. Photosynthetic nitrogen use efficiency (PNUE) and
photosynthetic phosphorus use efficiency (PPUE) were studied by taking into account functional groups, which classified by
either life form (FG1) or leaf texture (FG2). For FG1, there were significant (P < 0.05) differences between trees and shrubs in A
mass, N
mass and P
mass, but not in PNUE and PPUE; whereas for FG2, there were significant (P < 0.05) differences between the papery-leaved species and those with leathery leaves in the measured leaf traits inclusive
of PNUE and PPUE. Within the same classification systems, significant allometric scaling relationships were found in the leaf
trait pairs of A
mass-N
mass and A
mass-P
mass. Considered separately, the slope and y-intercept of the linear regression between A
mass and N
mass did not differ among functional groups nor between understory and canopy, but those for the linear regression between A
mass and P
mass differed significantly (P = 0.001) between understory and canopy species regardless of functional groups. The results of phylogenetic comparative analyses
were in accordance with the observed positive scaling relationships. The overall results indicate that there are no fundamentally
different nitrogen capture strategies in tropical woody species regardless of their life form, leaf texture and canopy gradient.
However, the strategies of phosphorus acquisition of tropical woody species differ with canopy layer increases. This variation
may correspond to the special soil conditions in this ecosystem, as phosphorus is an element limiting plant growth in tropical
areas. 相似文献
8.
Leaf production, leaf fall, leaf protein and net primary productivity have been reported for 4-year-old fodder trees in the mid-western Himalaya (altitude 1350 m; rainfall 1100 mm). The species include; Grewia optiva, Robinia pseudoacacia and Celtis australis growing in the open and Quercus glauca, Q. leucotrichophora and Ilex odorata growing in the forest. G. optiva, R. pseudoacacia and C. australis showed two distinct periods of leaf flush, and their leaves were short-lived (180 to 360 days) compared with the remaining three species which retained their leaves for more than two years, and had only one flush period during March–April. The open site species showed much higher leaf production, and the leaves contained a significantly (P < 0.05) higher protein content, compared with the forest group. Net primary productivity of G. optiva, C. australis and R. pseudoacacia was significantly (P < 0.05) higher than the forest species, which may be related to their high leaf production and rapid turnover rate of the leaves. The results are useful for management of these species in agroforestry systems. 相似文献
9.
J. H. Heering 《Agroforestry Systems》1995,30(3):341-350
The forage, wood and seed production of sixSesbania sesban accessions was assessed under irrigated conditions for two cutting frequencies and heights. Control trees were left uncut to measure their seed production potential. The trial was conducted over an 18-month period. The fastest growing accession produced almost 10 t/ha total dry matter (DM) after six months of growth, 40% of it being leaves. Total DM yield was higher at the six-month cutting interval compared to the three months' interval with yields between 25–42 t/ha/year. Some accessions could not sustain their high level of production but showed drastic drops in yield after repeated cutting. In general leaf DM production increased with increased cutting height. When cut at 150 cm the DM leaf yield at the three-month cutting interval ranged form 9.7–18.2 t/ha. More plants survived at the three-month cutting frequency. Seed yields varied considerably between accessions (0.02–1.56 t/ha at the six months' interval). After 18 months of undisturbed growth the trees yielded 36.5–83.7 t/ha total DM comprising 21% leaves. Fresh wood biomass ranged between 56.4–138.0 t/ha and seed yields 2.7–6.6 t/ha. 相似文献
10.
《Scandinavian Journal of Forest Research》2012,27(1-4):345-353
The current annual increment (wood volume) of stands of evergreen conifers on a research site in Sweden, was found to be significantly correlated with the maximum ratio of shoot to leaf silhouette area of shade‐acclimated shoots (R max). Neither the slope nor the intercept of the regression was significantly different from that published earlier relating maximum mean annual increment of British stands to R max . Moreover, a strong correlation between wood volumen increment and R max also occurs when data from four countries are combined. Wood density was not significantly correlated with R max. Harvest index for stand grown conifers more than 25 year old, was also not correlated with R max. Estimated net biomass production (excluding fine roots) was significantly correlated with R max (R 2 = 0.82, F = 17.7). These new analyses could not be used to disprove the hypothesis that variation in shade shoot structure of evergreen conifers has a measurable effect on maximum biomass production. 相似文献
11.
Mountain birch (Betula utilis) is the most important treeline species in alpine forests of southwestern China. In order to understand the effects of future
warming on treeline birch, this study was conducted to examine the effects of experimental warming on leaf phenology, growth
and gas exchange of B. utilis saplings using the open top chamber (OTC) method in a treeline ecotone of eastern Tibetan Plateau. The OTCs enhanced daily
mean air temperature by 2.9 K throughout the growing season. Conversely, soil moisture within the OTCs on average declined
by 3% over the experimental period. Experimental warming did not affect the timing of bud break, although treeline birch saplings
growing in the OTCs manifested later leaf abscission, resulting in longer leaf life span. Artificial warming significantly
accelerated the leaf and shoot growth rates of treeline birch saplings, resulting in larger leaf area and longer shoot elongation
late in the growing season. Moreover, experimental warming significantly reduced the leaf fluctuating asymmetry (FA) and tended
to increase specific leaf area (SLA). Moreover, elevated temperatures significantly enhanced the transpiration rate (E), stomatal conductance (g
s), maximum net assimilation rate (A
max), dark respiration rate (R
d) and apparent quantum yield (AQY) but did not influence the light compensation point (LCP) and light saturation point (LSP)
of treeline birch saplings. Taken together, our results indicated that short-term experimental warming markedly altered structural/functional
leaf traits and enhanced photosynthetic capacity of treeline birch saplings; such positive responses in treeline birch would
be favorable for the growth of this species under future warmer world. 相似文献
12.
Masatake G. Araki Hajime Utsugi Takuya Kajimoto Qingmin Han Tatsuro Kawasaki Yukihiro Chiba 《Journal of Forest Research》2010,15(2):115-122
We examined vertical and seasonal variations in stem respiration rates in a 50-year-old plantation of Japanese cypress, Chamaecyparis obtusa (Sieb. et Zucc.) Endl., in central Japan, and discuss a practical and precise method to scale a point-measured stem CO2 efflux rate up to whole-stem respiration. For five selected trees, stem CO2 efflux rates were measured at breast height (1.3 m) and at five or six points above breast height (at approximately 2 m intervals)
every 1 or 2 months over two consecutive years. Daily total stem respiration rate (surface area basis) was greater inside
the crown than below the crown, especially during the growing season. By incorporating the vertical profile of the respiration
rate, annual whole-stem respiration was estimated for each sample tree (R
y). We then compared this estimate (R
y) with another estimate of annual whole-stem respiration (R′y) obtained using a conventional method; it is assumed that the area-based respiration rate at breast height is constant throughout
the stem. The ratio of these two estimates (R′y/R
y) was usually less than 1, indicating that the assumptions used to calculate R′y underestimate annual whole-stem respiration. We found that R′y/R
y was negatively correlated with the ratio of crown length to tree height (crown ratio). These results suggest that annual
whole-stem respiration in this C. obtusa plantation is substantially affected by the relative proportion of within-crown stem with higher respiratory activity. Methodologically,
our results imply that incorporating the crown ratio into the conventional method would improve the accuracy of annual whole-stem
respiration estimates. 相似文献
13.
Jing Yin Fan He Guoyu Qiu Kangning He Jinghui Tian Weiqiang Zhang Yujiu Xiong Shaohua Zhao Jianxin Liu 《Frontiers of Forestry in China》2009,4(3):351-357
The objectives of our study were to explore the relationship of leaf area and stand density and to find a convenient way to
measure stand leaf areas. During the 2004 growing season, from May to October, we used direct and indirect methods to measure
the seasonal variation of the leaf areas of tree and shrub species. The trees were from Robinia pseudoacacia stands of four densities (3333 plants/hm2, 1666 plants/hm2, 1111 plants/hm2, and 833 plants/hm2) and Platycladus orientalis stands of three densities (3333 plants/hm2, 1666 plants/hm2, and 1111 plants/hm2). The shrub species were Caragana korshinskii, Hippophae rhamnoides, and Amorpha fruticosa. Based on our survey data, empirical formulas for calculating leaf area were obtained by correlating leaf fresh weight, diameter
of base branches, and leaf areas. Our results show the following: 1) in September, the leaf area and leaf area index (LAI)
of trees (R. pseudoacacia and P. orientalis) reached their maximum values, with LAI peak values of 10.5 and 3.2, respectively. In August, the leaf area and LAI of shrubs
(C. korshinskii, H. rhamnoides, and A. fruticosa) reached their maximum values, with LAI peak values of 1.195, 1.123, and 1.882, respectively. 2) There is a statistically
significant power relation between leaf area and leaf fresh weight for R. pseudoacacia. There are significant linear relationships between leaf area and leaf fresh weight for P. orientalis, C. korshinskii, H. rhamnoides, and A. fruticosa. Moreover, there is also a significant power relation between leaf area and diameter of base branches for C. korshinskii. There are significant linear relations between leaf area and diameter of base branches of H. rhamnoides and A. fruticosa. 3) In the hills and gully regions of the Loess Plateau, the LAIs of R. pseudoacacia stand at different densities converged after the planted stands entered their fast growth stage. Their LAI do not seem to
be affected by its initial and current density. The same is true for P. orientalis stands. However, the leaf area of individual trees is negatively and linearly related with stand density. We conclude that,
in the hills and gully regions of the Loess Plateau, the bearing capacity of R. pseudoacacia and P. orientalis stands we studied have reached their maximum limitation, owing to restricted access to soil water. Therefore, in consideration
of improving the quality of single trees, a stand density not exceeding 833 and 1111 plants/hm2 is recommended for R. pseudoacacia and P. orientalis, respectively. In consideration of improving the quality of the entire stands, the density can be reduced even a little more.
__________
Translated from Journal of Plant Ecology (Chinese Version), 2008, 32 (2): 440–447 [译自: 植物生态学报] 相似文献
14.
To elucidate the differences in the leaf water relations of Pinus densiflora Sieb. et Zucc. growing in different soil moisture conditions, we examined the pressure-volume curve and the diurnal changes in the stomatal conductance, the transpiration rate, and the leaf water potential. The leaf water relations were compared using field-grown 40-year-old pine trees growing on the upper and lower parts of a slope. We also compared the leaf water relations of potted 4-year-old saplings growing at pF 4.2 and pF 1.8 soil moisture levels for almost 1 year. The values of the ratio of symplasmic water at turgor loss point to symplasmic water at saturated point (Vp/Vo) and bulk modulus of elasticity () of both the adult trees on the upper part of the slope and the potted saplings growing on pF 4.2 soil moisture were higher than those values of both the adult trees on the lower part of the slope and the potted saplings growing on pF 1.8 soil moisture, respectively. The field-grown adult tree and the potted saplings growing under long-term water stress tended to reduce their stomatal conductance in response to the acute soil drying. It is suggested that P. densiflora growing under long-term water stress rapidly closed its stomata in response to soil drying and avoided losing water, and could also rapidly absorb water with reducing water loss because of the decrease in the leaf pressure potential derived from the high values. 相似文献
15.
Hedged stock plants of four full-sib families [27-2 × 27-5, 27-3× 27-1, 27-2 × 27-1, and 27-6 × 27-1 (designated B, G, R, andW)] of loblolly pine (Pinus taeda L.) were fertilizeddailywith a complete nutrient solution containing N at either 10, 25, 40, 55, or 70mg·L–1. May (spring softwood), July(summersoftwood), and January (winter hardwood) terminal stem cuttings were taken fortissue analysis and rooting studies. Spring cuttings rooted in the highestpercentages (59.5%), followed by winter (40.5%), and summer (34.7%). Maximumrooting for spring (70.0%), summer (48.6%), and winter (55.6%) occurred withcuttings taken from hedges that received N at 55mg·L–1. Genetic differences among familieswere evident as families G and W rooted in greater percentages at lower appliedN rates and family B was the best rooting family at the highest applied N rate.When internal N levels were considered families G and W also rooted best at lowinternal N levels, while family B was the best rooting family at high internalNlevels. Neither total nonstructural carbohydrates (TNC) nor any of severalspecific carbohydrates were correlated with rooting and an optimal TNC : Nratiofor rooting was not found. Root counts generally increased with increases inapplied N. Root number was weakly correlated with TNC (R = 0.29, P 0.01) and several specific sugars, but was not correlated with internal N.Totalroot dry weight, total root length, and total root area responded similarly. 相似文献
16.
Validation of a canopy photosynthesis model for cocksfoot pastures grown under different light regimes 总被引:3,自引:0,他引:3
Daily net canopy photosynthesis (P
n) was predicted for cocksfoot (Dactylis glomerata L.) canopies grown under different light regimes by integration of a leaf photosynthesis model developed for the light-saturated
photosynthetic rate (P
max), photosynthetic efficiency (α) and the degree of curvature (θ) of the leaf light–response curve. When shade was the only
limiting factor, the maximum P
n (P
nmax) was predicted to decrease approximately linearly from 33.4 g CO2 m−2 d−1 to zero as photosynthetic photon flux density (PPFD) fell from full sunlight (1800 μmol m−2 s−1 PPFD) to 10% of this in a fluctuating light regime. It was also predicted that at 50% transmissivity P
nmax was higher for a continuous light regime (10.4 g CO2 m−2 d−1) than for a fluctuating light regime with the same intensity (8.4 g CO2 m−2 d−1). The canopy photosynthesis model was then used to predict dry matter (DM) production for cocksfoot field grown pastures
under a diverse range of temperature, herbage nitrogen content and water status conditions in fluctuating light regimes. This
prediction required inclusion of leaf area index and leaf canopy angle from field measurements. The model explained about
85% of the variation in observed cocksfoot DM production for a range from 6 to 118 kg DM ha−1 d−1. The proposed model improves understanding of pasture growth prediction through integration of relationships between shade
limitations in fluctuating light regimes and other environmental factors that affect the canopy photosynthetic rate of cocksfoot
pastures in silvopastoral systems. 相似文献
17.
A combined model of stomatal conductance and photosynthesis was developed for Festuca pallescens (St. Ives) Parodi, a forage species in Patagonia. Curves showing the relationship between photosynthesis and photosynthetic
photon flux density (PPFD) were constructed for plants grown under differing levels of water availability, relative humidity
(RH) and air temperature (T). Stomatal conductance (gs) was related to these variables and pre-dawn leaf water potential (ψpd) using an empirical multiplicative submodel. Parameters of the photosynthesis-PPFD curves were related to the average gs values for each curve to introduce stomatal limitation on photosynthesis. Considering the simplicity of the models, estimated
stomatal conductance and photosynthesis agree satisfactorily with independent measured values in the field and in the glasshouse,
particularly in the range of low and medium values of both variables (R2 = 0.84 and 0.87 for gs and photosynthesis models, respectively). Photosynthesis–PPFD curves were also determined under field conditions for plants
growing under shade and in the open, in a silvopastoral trial in northwestern Patagonia. No significant differences in the
photosynthetic light response curves were found between these locations, but slight increases in maximum assimilation rate
and quantum yield (light use efficiency) were found for leaves grown under shade. This study of environmental influences on
photosynthesis in F. pallescens may help to predict its capacity to grow under trees in silvopastoral systems. In addition, this simple model may be easily
parameterised for other species to predict photosynthetic responses under different environmental conditions. 相似文献
18.
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
19.
Ranchers need alternative livestock feeds when herbaceous forages become limiting in summer. Our objectives were to determine:
(1) leaf and stem biomass components, (2) nutritive value [in vitro dry matter digestibility (IVDMD), total nonstructural
carbohydrate (TNC), N, and N digestibility] of leaves for animal browse, (3) concentration of the secondary metabolites robinin
and mimosine, and (4) in vitro leaf and bark toxicity for black locust (Robinia pseudoacacia L.) and mimosa (Albizia julibrissin Durz.), respectively, pollarded at 50 cm in Arkansas, USA. Black locust exceeded mimosa for every yield component (leaf mass
tree−1, leaves shoot−1, shoots tree−1, shoot mass tree−1, stem basal area, and biomass tree−1) except mass leaf−1. Projected yields were 1,900 and 1,600 kg leaves ha−1 for black locust and mimosa, respectively, assuming a population of 12,300 trees ha−1. Mimosa leaves had greater IVDMD, TNC, and N digestibility than black locust. Mimosa leaves exceeded the nutritional N requirements
of growing cattle (Bos taurus L.) and goats (Capra hircus L.), but protein supplementation would be needed for growing goats grazing black locust leaves. Tissue concentrations of
secondary metabolites robinin and mimosine were below detectable limits in black locust and mimosa, respectively. The extract
of black locust bark, but not leaves, was toxic to bioassayed African green monkey (Cercopithecus aethiops L.) cells. Either black locust or mimosa could provide moderate quantities of high quality, rotationally grazed forage for
goats during summer months when herbaceous forage may in short supply. 相似文献
20.
Ecosystem conservation plays an increasingly important role in forest management. The value for such conservation has been directly linked to high diversity of species and structure within systems. In the past, forestry inventory practices have concentrated on aspects that were primarily required for timber management. Now, however, much interest has arisen in measures that will indicate higher or lower diversity. The interspersion of trees of different species reflects diversity at a local level and may serve as an important indicator for the simplification of a forest or woodland system. This article shows that the mingling index Msp is robust in describing the spatial dispersion of plants; some guidelines for interpreting Msp are provided. 相似文献