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1.
Steven H. Sharrow 《Agroforestry Systems》2001,53(3):283-290
Honey locust (Gleditsia triacanthos), black locust (Robinia pseudoacacia), and honey mesquite (Prosopis glandulosa) are warm season forage trees with potential to efficiently share site resources with cool season pasture plants in Pacific
Northwest silvopastures. Establishment of hardwood trees can be difficult, however, because of feeding damage from wildlife
and livestock. This study compared establishment and growth of trees planted in 88 cm tall solid plastic shelter tubes to
88 cm tall plastic mesh tubes, used to protect trees from animal damage. Three replications were established in May 1995 for
each of the three tree species on a hill pasture near Corvallis, Oregon. Initial tree survival during the first summer and
winter following planting was higher in shelter tubes than in mesh tubes. At the end of the third growing season, 58% of black
locust and 94% of honey locust trees in shelter tubes were still alive compared to only 14% of black locust and 47% of honey
locust in mesh tubes. Few honey mesquite trees survived regardless of tube type used. Average three-year total height growth
for black locust was increased by 650% and basal diameter growth by 380% within shelter tubes, while honey locust height growth
was increased by 300% and diameter growth was increased by 150% compared to trees in mesh tubes. However, shelter tube trees
tended to be taller relative to their diameter and had difficulty standing upright if tubes were removed.
This revised version was published online in June 2006 with corrections to the Cover Date. 相似文献
2.
Microclimate of a natural pasture under planted Robinia pseudoacacia in central Appalachia, West Virginia 总被引:2,自引:0,他引:2
C. M. Feldhake 《Agroforestry Systems》2001,53(3):297-303
The conditions under which forages yield more under tree canopies than in open fields are not well understood. This study
was conducted to determine how microclimate experienced by forages in central Appalachia is modified by black locust (Robinia pseudoacacia L.) tree canopies. The effect of tree row location relative to forage growing point was evaluated for its impact on soil
water, photosynthetically active radiation (PAR), red/far-red ratio, and surface soil temperature. There was no consistent
spatial dependency relating tree rows to soil water levels. While daily PAR decreased as the time under shade increased, the
level of PAR under tree canopies nearly doubled as cloud cover increased from 0 to 25%. The red/far-red ratio decreased from
1.16 to 0.2 over forage growing between tree rows compared to forage within tree rows. Surface soil temperature remained nearly
constant (1.5–2 °C increase) during sunny days under tree canopies but increased 8–12 °C by mid afternoon at unshaded sites
depending on soil water levels. Forages under black locust trees experienced less extreme variation in both daily PAR and
temperature than unshaded forages, thus reducing the metabolic cost of adaptation to extreme conditions.
This revised version was published online in June 2006 with corrections to the Cover Date. 相似文献
3.
A. C. Varella D. J. Moot K. M. Pollock P. L. Peri R. J. Lucas 《Agroforestry Systems》2011,81(2):157-173
Shade cloth is commonly used in agroforestry research. It produces a continuous, uniform reduced light environment. Shade
cloth and a slatted structure were compared in relation to the inability to represent the light regime and plant responses
of an agroforestry system. The split-split-plot randomised block experiment had main plots as covering status (with or without
radiata pine trees), subplots as artificial shade (none, shade cloth or wooden slats) and sub-subplots as growth rotation,
over sown alfalfa, in three replicates. The quantity of light transmittance was 49% under trees, 41% under cloth and 44% under
slats. Temporal changes and spectral composition under trees were more accurately reproduced under the slats than shade cloth.
The red to far red ratio was 0.64 under tree shade and 0.74 during the shaded period under slats. This compared with 1.31
in open pasture, 1.28 under shade cloth in open and 1.26 under slats during sunny periods. To compensate for low light quantity
and quality, alfalfa had elongated stems and internodes. In open pasture and under cloth in the open, it produced short stems.
The mean dry matter yield under trees was 68% of the 30.3 t ha−1 in open pasture, 56% under cloth and 57% under slats. The slats induced similar morphological responses in alfalfa to those
in the agroforestry system. The magnitude of changes had little effect on growth and yield responses. The artificial slatted
structure approximated the intermittent light environment and consequent plant responses observed in an agroforestry system. 相似文献
4.
Tong Zhai Rabi H. Mohtar Andrew R. Gillespie Guntram R. von Kiparski Keith D. Johnson Michael Neary 《Agroforestry Systems》2006,66(3):243-257
Tree effects on understory pasture growth in a silvopastoral system were modeled by explicit simulation of tree canopy light
and rainfall interception, evapotranspiration, and nutrient uptake. The algorithms to model these effects were incorporated
into a multispecies grazing simulation model, GRASIM, to form the Silvopasture GRASIM model (SGRASIM). The new model was evaluated
using forage biomass data and soil moisture data collected from a silvopasture field experiment with black walnut (Juglans nigra L.). The SGRASIM model performed well in simulating the growth of three competing dominant forage species (orchardgrass [Dactylis glomerata L.], Kentucky bluegrass [Poa pratensis L.], and tall fescue [Festuca arundinacea (Schreb.)] in the pasture both under tree canopy and in open pasture (linear regression of observed on simulated biomass
for the species gave r
2 values above 0.97). Model growth parameters for forage under tree canopy, compared with those for an open pasture, bear testament
to the shading effects from the forest canopy in terms of reduced photosynthetic efficiency, increased leaf area ratio, and
photosynthate partitioned to aboveground biomass. The new model reasonably followed the soil moisture time series in the upper
soil layer (0–30 cm), where the bulk of the forage roots reside. 相似文献
5.
Reduction in forage production (FP) under trees in the humid tropics is well known, but information on how different levels
of nitrogen (N) fertilizer influence FP under trees is meager. The present study reports effects of four N fertilizer levels
(0, 60, 80 and 120 kg ha−1 N) on net soil N mineralization rate (NMR) and soil moisture (SM), FP, shoot biomass/root biomass ratio (SB/RB), N concentration
in SB, N uptake and nitrogen use efficiency (NUE) of three grasses [guinea (Panicum maximum Jacq.), para (Brachiaria mutica (Forssk) Stapf) and hybrid-napier (Pennisetum purpureum Schumach.)] under three canopy positions [under canopy (UC, representing high shade), between canopy (BC, representing low
shade) and open] of coconut trees (Cocos nucifera L.) in a coconut based silvopastoral system in the humid tropical climate of South Andaman Island of India. The study was
performed for two annual cycles (2005–2006 and 2006–2007). The hypotheses tested were: (1) FP would decline under tree shades,
both in N fertilized as well as no N fertilized conditions, when SM was not growth limiting in the open. However, amount of
decline in the FP would depend on grass species and intensity of shades i.e., higher was the shade greater would be the decline;
(2) N fertilizer would increase FP under tree shades, but the increase depended on grass species, intensity of shades and
amount of N applied. Amount of N applied, however, would not annul the shades effects when SM was not growth limiting in the
open. The study revealed that the tree reduced light 59% under UC and 32% under BC positions, but the N fertilizer levels
increased NMR by 11–51% under UC and 3–44% under BC positions compared to the open. SM did not differ across the canopy positions.
Under all situations, FP of all grasses declined under UC (47–78%) and BC (18–32%) positions compared to the open; the decline
was greater in Hybrid-napier than Guinea and Para grasses. Forage production of all grasses increased with N fertilizer increments
under all canopy positions reaching 32 t ha−1 dry matters for hybrid-napier at 120 kg ha−1 N in the open. Both guinea and para grasses outyielded hybrid-napier grass under UC but not under BC or in the open. N concentration
in the forage (SB) also increased as N fertilizer level increased. These observations support our hypotheses and suggest that
forage production under coconut palms can be increased by the application of N fertilizer with both guinea and para grasses
being more productive than hybrid-napier grass under the high shade. Where light conditions are better, hybrid-napier would
produce more forage than the other species. 相似文献
6.
Status of thousand cankers disease on eastern black walnut in the eastern United States at two locations over 3 years 
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下载免费PDF全文 G. J. Griffin 《Forest Pathology》2015,45(3):203-214
Thousand cankers disease (TCD), a lethal fungal dieback of eastern black walnut (Juglans nigra), caused by Geosmithia morbida, and spread by the walnut twig beetle, Pityophthorus juglandis, was documented in 2009 to be very destructive in the western United States and was identified in the native range of J. nigra at Knoxville, Tennessee, in 2010, and in 2011 at Richmond, Virginia. Beginning late 2010, we studied branch dieback levels (per cent live crown) and new TCD symptom development at these two quarantined locations monthly for 3 years. Of the 106 trees studied (53 at each location), 31 trees had low live crown ratings of 70 to 0% with little change over the 3 years of the study. One per cent of the trees developed new symptoms on a per‐year basis. Thus, a moderate level of TCD (mean = 76% live crown) was present in these two locations, and most trees were in a quiescent or dormant TCD condition for 3 years, an important finding not previously reported. We found new TCD symptoms developed in Richmond in 2011 and 2012 when precipitation from January 1 to the end of August was low (60–64 cm), and not when the precipitation in Richmond was higher (99 cm). In late 2012, in Richmond, soil water potential assays indicated that some black walnut trees were under severe physiological stress (?15 bars). In contrast, in 2013, high precipitation levels (99 and 130 cm) and high soil water potentials (?0.1 to ?3 bars) at both locations were associated with extensive new foliage and stem growth and recovery from TCD. Further research is needed on water relationships in regard to TCD and black walnut health. 相似文献
7.
New Zealand is subject to summer and autumn droughts that limit pasture growth. The planting of willow and poplar trees is
one option used to provide green fodder during drought. However, there is a wide concern that such an option can reduce the
overall understorey pasture growth. This study evaluated the comparative establishment and growth of densely planted young
willow and poplar and their effects on understorey pasture growth. Two experiments were established for 2 years in Palmerston
North and Masterton, North Island, New Zealand. In the first experiment, densely planted willow and poplar significantly reduced
understorey pasture growth by 24 and 9%, respectively, mainly due to shade, but coupled with soil moisture deficit in summer.
In the second experiment, pasture growth in a willow browse block was 52% of that in open pasture as a result of shade and
differences in pasture species composition and management. Willow and poplar survival rates were similar (P > 0.05) after 2 years of establishment (100 vs. 90.5%, respectively). However, willow grew faster than poplar in height (1.90
vs. 1.35 m), stem diameter (43.5 vs. 32.6 mm), canopy diameter (69 vs. 34 cm) and number of shoots (8.7 vs. 2.3) at the age
of 2 years. 相似文献
8.
J. H. Houx III R. L. McGraw H. E. Garrett R. L. Kallenbach F. B. Fritschi Wendi Rogers 《Agroforestry Systems》2013,87(1):73-80
Silvopasture—the integration of trees, forage, and livestock can be established by planting trees in existing pastures. Successful tree establishment and acceptable tree growth in existing tall fescue [Lolium arundinaceum (Schreb.) Darbysh.] pastures requires a vegetation-free zone near the tree base. This study was conducted to determine how large a vegetation-free zone was necessary for the establishment of black walnut (Juglans nigra L.) in tall fescue pastures. Half-sib black walnut seeds were planted in seven different-sized vegetation-free zones [0.0 (control), 0.3, 0.6, 0.9, 1.2, 1.5, and 1.8 m radii] that were created and maintained by applying glyphosate. The study included two consecutive planting years at two locations, one in central Missouri and another in north-central Missouri. The central Missouri site was underlain with well drained, deep soil while the other site was underlain with a poorly drained soil with a defined argillic horizon. Tree height growth was greatest in 0.9-m or larger vegetation-free zones. Diameter growth was greatest in 1.2-m vegetation-free zones and larger. The results suggest that a minimum of a 1.2-m vegetation-free zone in tall fescue pastures should be used to maximize black walnut height and diameter growth in the critical first years of tree establishment. 相似文献
9.
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
10.
Small Appalachian hill farms may benefit economically by expanding grazing lands into some of their under-utilized forested
acreages. Our objective was to study the forage production potential of forest to silvopasture conversion. We thinned a white
oak dominated mature second growth forested area establishing two orchardgrass-perennial ryegrass-white clover silvopasture
replications for comparison with two nearby open pasture replications. After thinning trees, silvopastures were limed, fertilized
and seeded. Sheep were fed hay and corn scattered across the area to facilitate removal of residual understory vegetation,
disruption of litter layer and incorporation of applied materials into surface soil. Each area was divided into multiple paddocks
and rotationally grazed by sheep. Two 1 m2 herbage mass samples were taken from each paddock prior to animal grazing. There was no significant difference in soil moisture
between silvopastures and open pastures however, there was adequate rainfall to prevent drought all 3 years. The two silvopastures
received 42 and 51% of total daily incident PAR compared to the open field. Total dry forage mass yield from open pasture
over the 3 years averaged 11,200 kg ha−1 y−1 and from silvopasture 6,640 kg ha−1 y−1. Silvopastures, however, had a higher PAR use efficiency (PARUE) than open pasture. Hill farms could increase grazing acreages
without sacrificing all benefits from trees on the landscape by converting some areas to silvopasture. 相似文献
11.
Pasture yield, quality and species distributions were compared between zones around live and killed eucalypt trees at two
woodland sites in northeast Queensland which differed markedly in soil fertility. Trees affected pasture quality and yield
on an individual tree basis: N concentration and dry matter digestibility tended to be higher under trees than in inter-tree
areas at both sites and pasture yields declined with distance from killed trees at the lower fertility site. However, the
distribution of individual species did not vary markedly with distance from trees. Trees also affected pasture yield on a
woodland basis: yields were greater where the trees were killed than under intact woodland. Soil under trees had higher levels
of organic carbon and greater litter cover than soil in inter-tree areas. However, pasture yields did not generally reflect
this fertility gradient since growth was limited by moisture availability due to drought conditions during the study period.
Pasture N concentration was higher under trees that in inter-tree areas since plants under trees produced a similar amount
of biomass as plants in inter-tree areas, but had access to higher nutrient levels. Trees appeared to have a greater effect
on soil nutrient availability at the low fertility site. Live trees depressed pasture yields to a lesser degree at the low
fertility site, demonstrating that the effects of trees on soil water availability (on a woodland scale) are less important
when soil nutrients are more limiting to growth. These results indicate that, while removing trees may enhance pasture productivity,
this benefit may be offset by a reduction in pasture quality. Given the beneficial effect of trees on soil nutrients, tree
removal may also have longer term implications for soil nutrient dynamics.
This revised version was published online in August 2006 with corrections to the Cover Date. 相似文献
12.
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
13.
Juglone (5-hydroxy-1,4-naphthoquinone), a chemical substance produced by black walnut (Juglans nigra L.), inhibits the growth
and existence of some beneficial soil microorganisms, especially Frankia spp. isolate ArI3 and Rhizobium japonicum. However,
no studies to date have reported on the effect of juglone on soil ammonification and nitrification. A field study and laboratory
incubation study to investigate this were conducted. In the field, in situ soil ammonification and nitrification were measured
within and outside of a 60-year-old black walnut plantation and a eight-year-old poplar (Populus spp. clone DN 177) plantation.
In the lab, soil (Sandy Fox Loam), collected in the absence of black walnut trees, was incubated for periods of one to six
weeks in the presence of varying concentrations of juglone. In the field, peak summer mean nitrate accumulation rates in soils
within the black walnut and poplar plantation were 163 and 95 μg 100 g-1 dry soil day-1 respectively and in soils outside the plantations, 104 (black walnut) and 78 (poplar) μg 100 g-1 dry soil day-1 respectively. No accumulation of ammonium at the end of the incubation period was noted. Therefore, no inhibition effect
of juglone on nitrification in the field was observed, and laboratory incubation results confirmed the results of the field
study. Results from these studies should address concerns about nitrification inhibition under walnut based intercropping
systems.
This revised version was published online in June 2006 with corrections to the Cover Date. 相似文献
14.
Black locust and alfalfa mulch quality were characterized over a 9-week period of decomposition. Both mulch materials were harvested with a forage harvester. The black locust material was harvested from trees annually coppiced for four years, the alfalfa from a preflorescent second cutting. Two identical, adjacent experiments were conducted, one on each mulch source. A randomized complete block design was used with four replications for this single factor experiment. Fifty grams fresh weight of both mulch types were placed in litter bags, made of 98% shade cloth, a woven plastic with holes approximately 1×0.5 mm. The treatments included two placements of the mulch material, surface and buried. Sampling took place on weeks 0, 1, 3, 6, and 9.The incorporation of mulch materials appears to accelerate dry weight loss. From an initial dry weight of 44.25 g, the buried black locust mulch averaged 4.58 g, while the surface mulch averaged 7.41 g by week 6. The alfalfa mulch initially weighed 40.99g, with buried mulch averaging 1.75 g and surface mulch averaging 4.08 g by week 9.Carbon concentration of alfalfa mulch increased with time in both mulch placements from 43.6% to 57.6% and 51.8% in surface and buried mulch, respectively. Black locust, with an initial carbon concentration of 46.9% increased to 55.9% for the buried mulch and to 53.89% in surface mulch. Nitrogen concentrations increased as well in buried mulch. Lignin concentrations increased dramatically over time for both species of mulch. Black locust lignin concentrations rose from 13.11% to 51.0% (buried) and 32.9% (surface); alfalfa mulch lignin concentrations rose from 6.67% to 31.4% (buried) and 47.7% (surface). 相似文献
15.
Naba R. Devkota Peter D. Kemp John Hodgson Ian Valentine I. Komang D. Jaya 《Agroforestry Systems》2009,76(2):363-374
Silvopastoral systems in New Zealand that incorporate trees planted to control soil erosion on hills largely rely on the productivity
of the pastoral system for financial returns. The effect on pasture productivity of increasing the tree canopy height by pruning
Italian gray alder (Alnus
cordata) was investigated by measuring the response of light, soil moisture, soil temperature, pasture production of major pasture
species, and grazing behaviour of sheep. A split-plot design with four replicates was used. The main plot treatments were
three levels of shade (81, 23, and 12% of available photosynthetic photon flux (PPF)), created by pruning 11 year old alder
grown at the same density. The sub-plot treatments were four pasture mixes: perennial ryegrass (Lolium perenne), Yorkshire fog (Holcus lanatus), and cocksfoot (Dactylis
glomerata), each sown with white clover (Trifolium repens), and cocksfoot sown with lotus (Lotus
pedunculatus). Soil temperature was highest under light shade. Total herbage yield at 50 mm stubble height from October to May under heavy
and medium shade was 60 and 80%, respectively, of the total herbage harvested under light shade. Cocksfoot had the greatest
herbage yield, either with lotus or white clover. The tillering of perennial ryegrass was suppressed by shade more than for
the other grass species making ryegrass unsuitable for use in this silvopastoral system. More sheep grazed in the light shade
than in the heavy shade, but there was no difference in sheep preference for cocksfoot or Yorkshire fog. Lotus was grazed
more frequently than white clover. Pruning of alder to increase canopy height has the potential to improve the productivity
of the understorey pasture and its acceptability to sheep. 相似文献
16.
Ecophysiology of black walnut (Juglans nigra L.) along a vertical canopy gradient was studied in a mixed species plantation for the first (2007) and second (2008) growing seasons after thinning to understand response mechanisms to increased resource availability. Parameters were affected by the thinning treatment in 2008 only. Thinned trees showed increased light-saturated maximum photosynthesis (Amax) from 2007 to 2008 compared to non-thinned trees. This response was likely due to increased light levels near thinned trees (vs. changes in water or nutrient status), because thinning did not affect midday leaf water potential (Ψmd), average daily soil water content (SWC), or leaf nitrogen content per unit area (Na). Plantation thinning did not increase relative diameter growth during the experimental period. This may be due to low thinning intensity and mortality prior to thinning that reduced competition from first-tier neighbors. Certain leaf traits such as leaf mass per unit area (LMA) and Na increased from the bottom to the upper canopy position, but did not influence thinning responses. Distribution patterns of photosynthetic parameters through the vertical canopy gradient were less defined than leaf structural traits such as LMA and Na. Findings reflect black walnut's large variability in response to thinning. 相似文献
17.
Silvopastoralism in New Zealand: review of effects of evergreen and deciduous trees on pasture dynamics 总被引:1,自引:1,他引:0
Complex interactions between livestock, trees and pasture occur in silvopastoral systems. Between trees and pasture, competition
for soil resources (nutrients and water) occurs, becoming especially relevant when one of them is in scarce supply. Trees
reduce light and water reaching the understorey layers according to tree density and canopy size. However, they may ameliorate
extreme climatological features (reducing wind speed and evapotranspiration, and alleviating extreme temperatures), and improve
soil properties, for example, deciduous tree litter may contribute to increased pH and soil nutrient concentrations. During
tree establishment, there are generally negligible effects on pasture, irrespective of tree type. However, there is a decline
in pasture production and nutritive value under shade with increasing tree age and higher stand density. Under the same conditions,
deciduous trees affect pasture later (extinction point of pasture occurs at 85% of canopy closure) than evergreen trees (about
67% for Pinus radiata D. Don). This is mainly because deciduous trees have a leafless period that enables pasture recovery, and their litter smothers
pasture less intensely because of its relatively fast decomposition. Silvopastoral studies conducted in New Zealand are reviewed
to discuss these effects, and differences in the effects of evergreen and deciduous trees are shown using the examples of
P. radiata, and Populus and Salix spp. respectively, which exist in many temperate countries. Future research needs are outlined. 相似文献
18.
Enhancement of root development helps to improve soil physical properties, carbon sequestration, and water quality of streams.
The objective of this study was to evaluate differences in root length density (RLD) and root and soil carbon content within
grass buffer (GB), agroforestry buffer (AgB), rotationally grazed pasture (RG) and continuously grazed pasture (CG) treatments.
Pasture and GB areas included red clover (Trifolium pretense L.) and lespedeza (Kummerowia stipulacea Maxim.) planted into fescue (Festuca arundinacea Schreb.) while AgB included Eastern cottonwood trees (Populus deltoids Bortr. ex Marsh.) planted into fescue. One-meter deep soil cores were collected from each treatment in August 2007 and 2008
with a soil probe. Three soil cores were sampled at six replicate sampling positions. Soil cores were collected in plastic
tubes inserted inside the metal soil probe. Soils were segregated by horizons, and roots were separated into three diameter
classes (0–1, 1–2, >2 mm) by soil horizon. Root length was determined using a flatbed scanner assisted with computer software.
Buffer treatments (167 cm/100 cm3) had 4.5 times higher RLD as compared to pasture treatments (37.3 cm/100 cm3). The AgB treatment had the highest (173.5 cm/100 cm3) RLD and CG pasture had the lowest (10.8 cm/100 cm3) value. Root carbon was about 3% higher for the buffers compared to RG treatment. Soil carbon was about 115% higher for the
buffers compared to pasture treatments. Results from this study imply that establishment of agroforestry and GB on grazed
pasture watersheds improve soil carbon accumulation and root parameters which enhance soil physical and chemical properties
thus improving the environmental quality of the landscape. 相似文献
19.
Changing biotic and abiotic stress mediate in plant–plant interactions resulting in positive to neutral or negative effects,
and these effects can change with gradients of stress or through plant dynamics. Here we studied the variability in annual
grass production and composition induced by gradients of intercepted light by trees in years of contrasting precipitation
in Mediterranean holm oak open woodlands. Although trees reduce the light radiance received by the pasture community, the
presence of trees generally had a positive effect on pasture production in average climatic years where soil fertility was
low. However, the interaction changed with increasing abiotic water stress. In a dry year, the increase in fertility could
not be utilized and the effect of the crown was neutral. The effect of shade turned out to be beneficial for growth, contrary
to the situation in an average climatic year. Light insolation was positive for legume biomass. There was high variability
in functional components over the course of the growing period and from 1 year to another. Under low levels of other biotic
stresses such as livestock grazing or root competition, the limiting factor among light, soil moisture or soil nutrients may
determine whether facilitation or competition occurs. 相似文献
20.
Giovanna Seddaiu Simonetta Bagella Antonio Pulina Chiara Cappai Lorenzo Salis Ivo Rossetti Roberto Lai Pier Paolo Roggero 《Agroforestry Systems》2018,92(4):893-908
Mediterranean wooded grasslands that emerge from silvopastoral activities are multifunctional systems that result in high biodiversity and offer ecosystem services such as forage production and soil carbon sequestration. During 3 years, ten grazed wooded grassland fields were studied in the Berchidda–Monti long-term observatory, located in NE Sardinia, Italy, with the aim of exploring the synergies and trade-offs between biodiversity and selected ecosystem services. Positions below and outside the canopy of three cork oak trees in each field were randomly selected to compare seasonal pasture production, pasture utilization rate by animals, botanical composition, biodiversity indicators (Shannon index and plant species richness) and soil organic carbon. In autumn, dry matter production of pasture was similar in the two positions; in two winters out of three it was greater below the trees than outside, and in spring it was greater outside than below the trees. While plant species richness and Shannon index were not significantly influenced by the position, the overall wooded grassland plant species richness was 31% higher than that outside of the tree crown. The soil organic carbon content in the 0–40-cm soil layer was also higher below the trees. Our findings highlight that if the main purpose of the wooded grasslands is to provide forage for grazing animals rather than conserving and/or enhancing plant diversity and soil fertility, the presence of trees constrains the overall forage productivity, although the greater forage availability in winter under the trees can contribute to improve the seasonal distribution of forage production. 相似文献