共查询到20条相似文献,搜索用时 31 毫秒
1.
W. Conejero C. D. Mellisho M. F. Ortu?o A. Galindo F. P��rez-Sarmiento A. Torrecillas 《Irrigation Science》2011,29(4):299-309
Measurements of midday stem water potential (Ψstem) and maximum daily trunk shrinkage (MDS) were taken over a 4-year period in early maturing peach trees (Prunus persica (L.) Batsch cv. Flordastar) grafted on GF-677 rootstock. Plants were irrigated daily above their water requirements in order
to obtain non-limiting soil water conditions. The results indicated that seasonal reference equations can be obtained for
MDS and Ψstem using crop reference evapotranspiration (ETo), daily mean vapour pressure deficit (VPDm) and mean daily air temperature (Tm) in the case of MDS, and ETo and VPDm in the case of Ψstem. In this way, VPDm was seen to be the best predictor of MDS and Ψstem, without both were influenced significantly by yield or crop load variations between years. When the postharvest regression
between MDS or Ψstem and the meteorological parameters mentioned were broken down into early and late postharvest periods, the correlation coefficients
improved and were closely related to the presence or absence of sugar-demanding sinks, such as active root growth. A negative
linear relationship between MDS and Ψstem was found, pointing to unchanging radial hydraulic conductivity in the bark tissues and suggesting that MDS depends to a
great extent of the water potential. 相似文献
2.
The use of plant water status indicators such as midday stem water potential (Ψstem) and maximum daily trunk shrinkage (MDS) in irrigation scheduling requires the definition of a reference or threshold value, beyond which irrigation is necessary. These reference values are generally obtained by comparing the seasonal variation of plant water status with the environmental conditions under non-limiting soil water availability. In the present study an alternative approach is presented based on the plant’s response to water deficit. A drought experiment was carried out on two apple cultivars (Malus domestica Borkh. ‘Mutsu’ and ‘Cox Orange’) in which both indicators (Ψstem and MDS) were related to several plant physiological responses. Sap flow rates, maximum net photosynthesis rates and daily radial stem growth (DRSG) (derived from continuous stem diameter variation measurements) were considered in the assessment of the approach. Depending on the chosen plant response in relationship with Ψstem or MDS, the obtained reference values varied between −1.04 and −1.46 MPa for Ψstem and between 0.17 and 0.28 mm for MDS. In both cultivars, the approach based on maximum photosynthesis rates resulted in less negative Ψstem values and smaller MDS values, compared to the approaches with sap flow and daily radial stem growth. In the well-irrigated apple trees, day-to-day variations in midday Ψstem and MDS were related to the evaporative demand. These variations were more substantial for MDS than for midday Ψstem. 相似文献
3.
The sensitivity of stem diameter variations (SDV) measured with linear variable transducer (LVDT) sensors as indicators of plant water status in tomato was evaluated. Two tomato crops were grown sequentially in a sandy loam soil in an unheated plastic greenhouse. These were an autumn–winter tomato crop (autumn crop) and a spring–summer tomato crop (spring crop). One drying cycle of 61 days was imposed to the autumn crop in winter at 92 days after transplanting (DAT). Two drying cycles, each of 29 days, were applied to the spring crop, to young (58 DAT) and mature plants (121 DAT). For each drying cycle, four replicate plots did not receive irrigation, and four were well watered. During each drying cycle, LVDT sensors continuously measured SDV, and daily measurements were made of leaf (Ψ
leaf) and stem water potential (Ψ
stem). SDV data was interpreted using the SDV-derived indices, maximum daily shrinkage (MDS) and stem growth rate (SGR). The response of SDV-derived indices to water deficit differed with (1) climatic conditions during stress imposition and (2) crop age. In the winter drying cycle of the autumn crop, the responses of the SDV-derived indices to soil drying were relatively small and slower than Ψ
leaf and Ψ
stem. Under warmer conditions, the SDV-derived indices were much more responsive to soil drying. In rapidly growing young plants, where SDV was characterized by high SGR and small MDS, SGR was the most sensitive SDV-derived index. In more mature plants with little stem growth, MDS was the most sensitive SDV-derived index. In mature plants grown in warm to hot conditions, MDS (1) responded at a similar time or earlier than Ψ
leaf and Ψ
stem and (2) had larger “signal” values (ratio of values from unwatered to control plants) than Ψ
leaf and Ψ
stem. However, there was appreciably more “noise” (coefficient of variation, CV) associated with the SDV-derived indices, giving lower “sensitivity” values, determined from “signal” to “noise” ratios, than for Ψ
leaf and Ψ
stem. Regression analysis between MDS of well-watered plants and climatic variables gave best results for a linear relationship between MDS and daily maximum vapor pressure deficit. There were strong linear relationships between MDS and Ψ
leaf for each drying cycle. The slopes of these relationships differed with crop age indicating that there was no constant relationship between MDS and Ψ
leaf for a whole season. Overall these results demonstrated that MDS and SGR can be sensitive indicators of the water status of tomato crops under conditions of moderate to high evaporative demand. However, the variability associated with the SDV-derived indices and the changing MDS–Ψ
leaf relationship with crop age represent major issues regarding the development of irrigation scheduling protocols for tomato. 相似文献
4.
Maximum daily trunk shrinkage and stem water potential reference equations for irrigation scheduling of lemon trees 总被引:3,自引:2,他引:1
Maria Fernanda Ortuño Juan José Brito Yelitza García-Orellana Wenceslao Conejero Arturo Torrecillas 《Irrigation Science》2009,27(2):121-127
Measurements of midday stem water potential (ψstem) and maximum daily trunk shrinkage (MDS) were done over a 3-year period in adult Fino lemon trees (Citrus
limon (L.) Burm. fil.) grafted on sour orange (C. aurantium L.) rootstocks. Plants were irrigated daily above their water requirements in order to obtain non-limiting soil water conditions.
The results indicated that reference equations can be obtained for MDS and ψstem by pooling data across several seasons using crop reference evapotranspiration (ETo), daily mean vapor pressure deficit (VPDm) and mean daily air temperature (T
m) in the case of MDS, and ETo in the case of ψstem. The best predictor of MDS under non-limiting soil water conditions was T
m, suggesting that MDS reference values can be obtained by means of easy and cheap measurements. MDS and ψstem values were not influenced significantly by yield or crop load variations between years. A negative linear relationship between
MDS and ψstem was found, pointing to an unchanging radial hydraulic conductivity in the bark tissues and suggesting that the MDS is controlled
by water potential. 相似文献
5.
The following two topics were examined: (1) The variability in the measurement of leaf water potential (LWP), stem water potential
(SWP), maximum daily trunk shrinkage (MDS), and soil water tension (SWT) in apple, nectarine and pear orchards; and (2) The
validity of a leaf-selection procedure for SWP measurements in commercial apple orchards. 27 trees were selected in an apple
orchard, 27 in a nectarine orchard, and 30 in a pear orchard. The trees were close to each other. The measurements comprised
of: midday SWP in apple, nectarine and pear; midday LWP in apple; MDS in apple and nectarine; and SWT in pear. The mean and
standard errors (SEs) of each water status indicator in each species were calculated for an increasing sample size. The sample
sizes required for stable averages were: SWP – 4, 5, and 8 trees for apple, nectarine and pear, respectively; MDS – 17 and
16 trees for apple and nectarine, respectively; SWT – 21 for pear trees. The relative SEs (i.e. percent of population mean)
were 2.4, 6.1 and 10.1% in SWP/LWP, MDS and SWT, respectively. Possible explanations for the differing variability of the
various water status indicators are discussed. The results show that smaller samples were sufficient to represent SWP and
LWP properly than what was required for MDS and SWT. 9 commercial apple plots were selected and about 25 randomly selected
leaves were used for midday SWP measurements in each plot (i.e. experimental sets). About 5 leaves on closely adjacent “representative”
trees were selected in each of the commercial plots (i.e. commercial sets) and midday SWP was measured. The average difference
in SWP between the experimental and the commercial sets was –0.127 MPa. The choice of closely adjacent trees increased the
deviation from the experimental sets. The use of a reasonable sample size (n=7) may enable midday SWP to be measured within ±0.15 MPa in most commercial orchards. 相似文献
6.
Early morning fluctuations in trunk diameter are highly sensitive to water stress in nectarine trees
The sensitivity to water stress of different plant water status indicators was evaluated during two consecutive years in early nectarine trees grown in a semi-arid region. Measurements were made post-harvest and two irrigation treatments were applied: a control treatment (CTL), irrigated at 120 % of crop evapotranspiration demand to achieve non-limiting water conditions, and a deficit irrigation treatment, that applied around 37 % less water than CTL during late postharvest. The plant water status indicators evaluated were midday stem water potential (Ψ stem) and indices derived from trunk diameter fluctuations: maximum daily shrinkage (MDS), trunk daily growth rate, early daily shrinkage measured between 0900 and 1200 hours solar time (EDS), and late daily shrinkage that occurred between 1200 hours solar time and the moment that minimum trunk diameter was reached (typically 1600 hours solar time). The most sensitive [highest ratio of signal intensity (SI) to noise] indices to water stress were Ψ stem and EDS. The SI of EDS was greater than that of Ψ stem, although with greater variability. EDS was a better index than MDS, with higher SI and similar variability. Although MDS was linearly related to Ψ stem down to ?1.5 MPa, it decreased thereafter with increasing water stress. In contrast, EDS was linearly related to Ψ stem, although the slope of the regression decreased as the season progressed, as in the case of MDS. Further studies are needed to determine whether EDS is a sensitive index of water stress in a range of species. 相似文献
7.
Boundary lines of stem water potential (Ψstem) responses to vapour pressure deficit (VPD) have been reported for several species and are generally referred to as VPD reference
lines (RL). In order to study the response of Ψstem to VPD, RLs were determined in plants that received full (Control) and deficit (SSDI) irrigation during three consecutive
years. The Control plants received irrigation equivalent to full crop water evapotranspiration minus effective rainfall and
the SSDI plants were irrigated at 50% of the Control level. Ψstem values for the Control treatment during crop development tended to decrease, and those corresponding to SSDI plants were
always lower than those for Control plants. Considering the 3-year data set, no relationship was found between Ψstem and VPD. However, there was a differential seasonal response between Ψstem and VPD, which depended on the stage of fruit development. A separate phenological analysis enabled the detection of RL for
stage II (from fruit-set to veraison) and for stage III (post-veraison), whereas during stage I (from bud-break to fruit set)
RL was not apparent. RL slopes increased as the season progressed and were significantly correlated to average values of Ψstem. The seasonal decrease in midday Ψstem for Control plants was interpreted as being a result of a progressive increase in canopy size and water consumption, which
led to increased water depletion before each afternoon’s daily irrigation event. The apparent lack of RL during stage I was
related to lower levels of water demand and high Ψstem. 相似文献
8.
We evaluated the usefulness of short-term trunk diameter variations (TDV) as water stress indicator in field-grown grapevines
cv. Tempranillo. Two indices were calculated from TDV, maximum daily trunk shrinkage (MDS), and trunk growth rate (TGR). The
seasonal evolution of both indicators was compared with occasional determinations of pre-dawn leaf water potential and stem
water potential, measured at early morning (Ψsem) and at midday (Ψsmd) in irrigated and non-irrigated vines. In the second season, the effect of crop load on the vine water status indicators
was also studied. Crop load did not affect either the vine water relations or the TDV. All water potential determinations
had much lower variability and were more sensitive than both MDS and TGR to water restrictions. The ability of both indices
to detect plant water stress varied largely depending upon the phenological period. In fact, MDS and TGR were only able to
detect vine water stress during a short period of time before veraison. During this period, TGR was linearly related to both
Ψsem and Ψsmd, while for MDS a curvilinear, quadratic equation, better described the relationship with plant water status. After veraison
no apparent relationship existed between plant water status and MDS or TGR. Hence, our results question the practical use
of both MDS and TGR as variables to automate irrigation scheduling for grapevine. 相似文献
9.
A study was conducted to determine the relationship between midday measurements of vine water status and daily water use of
grapevines measured with a weighing lysimeter. Water applications to the vines were terminated on August 24th for 9 days and
again on September 14th for 22 days. Daily water use of the vines in the lysimeter (ETLYS) was approximately 40 L vine−1 (5.3 mm) prior to turning the pump off, and it decreased to 22.3 L vine−1 by September 2nd. Pre-dawn leaf water potential (ΨPD) and midday Ψl on August 24th were −0.075 and −0.76 MPa, respectively, with midday Ψl decreasing to −1.28 MPa on September 2nd. Leaf g
s decreased from ~500 to ~200 mmol m−2 s−1 during the two dry-down periods. Midday measurements of g
s and Ψl were significantly correlated with one another (r = 0.96) and both with ETLYS/ETo (r = ~0.9). The decreases in Ψl, g
s, and ETLYS/ETo in this study were also a linear function of the decrease in volumetric soil water content. The results indicate that even
modest water stress can greatly reduce grapevine water use and that short-term measures of vine water status taken at midday
are a reflection of daily grapevine water use. 相似文献
10.
Persimmon tree (Diospyros kaki L.f.) is a deciduous fruit tree included in the so-called group of minor fruit tree species. Worldwide, it is not widely grown but, nowadays, Kaki culture is of some importance in the south-east of Spain because of the high fruit commercial value. Currently, neither it is known about Kaki trees water needs, nor crop responses to the irrigation regime. The objective of the present research was to assess the feasibility of using maximum diurnal trunk shrinkage (MDS) as a plant water stress indicator for Kaki trees. During two drought cycles, in trees under either full or deficit irrigation, the MDS obtained by means of LVDT sensors was compared with a reference indicator of fruit trees water status, the midday stem water potential (Ψstem). In addition, stomatal conductance and fruit diameter variations were also followed. As water restrictions began, there was an immediate increase in MDS, in correspondence with a decrease in Ψstem. Pooling data from both drought cycles and irrigation regimes, MDS and Ψstem were linearly correlated (r2 = 0.77***). The magnitude of differences between well watered and deficit irrigated trees was much larger in the case of MDS than for Ψstem. However, the tree-to-tree variability of the MDS readings was three times higher than for Ψstem; average coefficient of variation of 14% and 38% for Ψstem and MDS, respectively. Overall, results reported indicated that MDS is a sensitive indicator of Kaki water status and it can be further used as an irrigation scheduling indicator for optimum irrigation management of this crop. However, the large MDS tree-to-tree variability should be taken into account when selecting the number of trees to monitor within an orchard. 相似文献
11.
The effects of high crop load (unthinned trees, 22-23 fruits cm−2 of trunk cross-sectional area (TCSA)), commercial crop load (3-4 fruits cm−2 of TCSA), and no crop load (all fruitlets removed) on maximum daily trunk shrinkage (MDS), trunk growth rate (TGR) and stem water potential (Ψstem) were studied during the fruit growth period and 20 days following harvest in fully irrigated early maturing peach trees, Prunus persica (L.) Batsch, cv. Flordastar. Even though crop load did not affect plant water status, the MDS and TGR values increased and decreased, respectively, as a result of the crop load effect. In this sense, for the same Ψstem value, there was a linear increase in MDS with crop load, with a slope of 6.6 μm MPa−1 per unit of crop load increment. The effects of environmental conditions on daily MDS values were also dependent on crop load, suggesting that MDS reference values should be obtained by representing the relations between MDS and the climatic variables (daily mean air temperature, daily mean vapour pressure deficit and daily crop reference evapotranspiration) for a given crop load. The constancy of the relation between MDS and Ψstem across crop load underlined the constancy of the elastic properties of the bark tissues. 相似文献
12.
Vegetative growth and water relations of Thompson Seedless grapevines in response to applied water amounts at various fractions
of measured grapevine ETc were quantified. Treatments ranged from no applied water up to 1.4 times the water used by vines growing in a weighing lysimeter.
All treatments were irrigated at the same frequency as the vines in the lysimeter (whenever they used 2 mm of water), albeit
at their respective fraction. Soil water content and midday leaf water potential (Ψl) were measured routinely in four of the irrigation treatments across years. The amount of water depleted in the soil profile
ranged from 190 mm for the 0.2 treatment in 1993 to no water depletion for the 1.4 treatment in 1992. The irrigation treatments
significantly affected midday Ψl, total shoot length, leaf area per vine, pruning weights and trunk diameter; as applied water decreased so did vegetative
growth. Pruning weights were a linear function of the seasonal, mean midday Ψl across growing seasons. The application of water amounts in excess of evapotranspiration negatively affected vegetative growth
some of the years. A companion paper will demonstrate that over-irrigation can negatively affect reproductive growth of this
grape cultivar due to excess vegetative growth. 相似文献
13.
D.S. Intrigliolo E. NicolasL. Bonet P. FerrerJ.J. Alarcón J. Bartual 《Agricultural Water Management》2011,98(4):691-696
Pomegranate (Punica granatum L.) is a deciduous fruit tree native of central Asia included in the so-called group of minor fruit tree species, not widely grown but of some importance in the south east of Spain. Fruit consumption interest is due to the organoleptic characteristics and to the beneficial effects on health. Pomegranate tree are considered as a culture tolerant to soil water deficit. However, very little is known about pomegranate orchard water management. The objective of this work was to characterize, for the first time in P. granatum, water relations aspects of applied significance for irrigation scheduling. Trees under different irrigation regimes were used and midday stem water potential (Ψstem) and midday leaf gas exchange were periodically measured over the course of an entire season. During spring and autumn, Ψstem did not show significant differences between irrigation treatments while there were considerable differences in leaf photosynthesis and stomatal conductance, suggesting a near-isohydric behaviour of pomegranate trees. This might explain why the signal intensity of Ψstem was lower than those of gas exchange indicators during the experimental period. Thus, leaf photosynthesis rates and stomatal conductance might have a greater potential for irrigation scheduling of pomegranate trees than Ψstem measured at solar noon. 相似文献
14.
Plant age and size, seasonal growth patters and crop load, among other factors, have been reported to decrease the usefulness of trunk diameter variation (TDV) derived indices as water stress indicators in olive trees. Our hypothesis, however, is that indices derived from TDV records in old, big olive trees are sensitive enough to detect levels of water stress in trees of orchards under deficit irrigation that, although severe, are below the threshold for fruit shrivelling. This is of importance for the production of good quality oils, since fruit shrivelling may affect oil quality. The aim of this work was to assess different TDV-derived indices as water stress indicators in 40-year-old ‘Manzanilla’ olive trees with heavy crop load. We derived the maximum daily shrinkage (MDS), daily growth (DG) and daily recovery (DR) from TDV records taken during the 2008 dry season both in well-irrigated FAO trees and in deficit-irrigated RI trees. Measurements of volumetric soil water content (θv), leaf water potential (Ψl), stomatal conductance (gs), net CO2 assimilation rate (A), water and oil accumulation in the fruits and yield parameters were made for both treatments. The trunks did not grow during the experimental season, either in the FAO or RI trees, likely because of the heavy crop load. Therefore, DG was useless as water stress indicator. For MDS and DR, which were responsive to the increase of the trees’ water stress, we calculated the variability, quantified by the coefficient of variation (CV), the signal intensity (SI) and the sensitivity (SI/CV) values. In addition, we derived reference equations for irrigation scheduling from the relationships between MDS values in the FAO trees and main meteorological variables. Values both of SI-MDS and SI-DR were steady until September 9, despite of increasing differences in θv between treatments from early in the dry season. The Ψl vs θv values showed an outstanding capacity of the RI trees to take up water from the drying soil, and the Ψl vs gs values showed a near-isohydric behaviour of those deficit-irrigated trees. These results explain, at least in part, the lack of response of MDS and DR on that period. Both SI-MDS and SI-DR peaked for the first time on September 9, 16 days before the appearance of fruit shrivelling. Our results suggest that using TDV-derived indices as water stress indicators for irrigation scheduling in old olive orchards with medium to low plant densities, i.e. with large root zones, may be useless in case the irrigation strategy is aimed at keeping the soil close to field capacity. Nevertheless, the MDS and DR indices may be useful indicators for the avoidance of fruit shrivelling in deficit irrigated olive orchards for the production of good quality oil. Reliable reference equations for scheduling irrigation with the signal intensity approach were obtained from the regression of MDS values vs the daily maximum values of both the air temperature and the vapour pressure deficit of the air. 相似文献
15.
Trunk diameter fluctuations (TDFs) have been suggested as an irrigation-scheduling tool for several fruit trees, but the works in olive trees has not obtained successful results with any of the indicators (maximum daily shrinkage (MDS) and trunk growth rate (TGR)) that are calculated from the daily TDF curves. No studies of olive trees have ever used reference trees to reduce the influence of the environment, as in work for other fruit trees. In this work, we compare different continuous and discrete water status measurements in a drought cycle. We suggest the calculation of a new and related indicator (DTGR), the difference between the TGR of stressed trees, and the TGR of reference trees. Negative DTGR values always indicate water stress conditions. The current work describes the variations of this new indicator (DTGR) in relation to water stress, and compares DTRG to the midday stem water potential, maximum leaf conductance and to the MDS. The midday stem water potential and the maximum leaf conductance describe the stress cycle clearer than the trunk diameter fluctuation indicators. No significant differences were found in the values of MDS between stressed and reference trees. On the other hand, the DTGR pattern values were near that of the stem water potential, though positive values were recorded in some dates during the water stress cycle. These variations indicate that DTGR is not a cumulative water stress indicators, as is water potential. Therefore, according to our data, water potential is a better indicator than the TDF parameters when no deficit irrigation scheduling is performed in olive trees. DTGR seems to be a good indicator of water stress from a threshold value around −1.4 MPa in olive trees. In addition, higher variability of DTGR than stem water potential may also be reduced with the increase in the number of sensors. 相似文献
16.
Continuous measurement of plant and soil water status for irrigation scheduling in plum 总被引:2,自引:1,他引:2
The usefulness of continuous measurement of soil and plant water status for automated irrigation scheduling was studied in a drip-irrigation experiment on plum (Prunus salicina Black Gold). Two levels of water restriction were imposed at different phenological periods (from pit-hardening to harvest, post-harvest) and compared with a well irrigated control treatment. Soil matrix water potential (soil) was measured with granular matrix sensors (Watermark); and short-period trunk diameter variation (TDV) was measured with linear variable displacement transformers. The Watermark sensor readings were in reasonable agreement with the irrigation regime and showed a good indication of plant water status across the season (r2=0.62), although they were a better predictor of stem water potential (stem) in the dry range of soil. Nonetheless, the most important drawback in their use was the high variability of readings (typical CV of 35–50%). From TDV measurements, maximum daily shrinkage (MDS) and trunk growth rate (TGR) were calculated. Their performance was also compared with stem, which had the lowest variability (CV of 7%). During most of the fruit growth period, when TGR was minimum, MDS was higher in the less-irrigated treatment than in the control and correlated well (r2=0.89) with stem. However, after harvest, when TGR was higher, this correlation decreased as the season progressed (r2=0.73–0.52), as did the slope between MDS and stem, suggesting tissue elasticity changes. Later in the season, TGR was better related to plant water status. These observations indicate some of the difficulties in obtaining reference values useful for irrigation scheduling based exclusively on plant water status measurements. 相似文献
17.
Jordi Marsal G. Lopez J. del Campo M. Mata A. Arbones J. Girona 《Irrigation Science》2010,28(2):181-189
We examined, over the postharvest seasons of 2005–2007, regulated deficit irrigation (RDI) for its potential of saving water
and maintaining fruit yield and quality in ‘Summit’ sweet cherry. The postharvest irrigation treatments were: full irrigation
(Control), receiving 80% of water in Control (RDI-80%), and receiving 50% of water in Control (RDI-50%). Midday stem water
potential (Ψstem) was used for assessing plant water status. In 2006, trees produced a large crop and commercial fruit thinning had to be
applied, whereas 2007 was a low crop year. The RDI treatment, first applied in 2005, reduced fruit set in 2006 and also reduced
root winter starch concentration. In 2006, fruit set was lower in RDI-50% than in Control. But fruit thinning had still to
be done with the final yield being the same among treatments. In 2007, RDI-50% produced more fruit and higher yields than
Control. Relationship between postharvest Ψstem and crop load in the following season varied according to the year. They were negatively correlated in 2006 and positively
correlated in 2007. Fruit firmness did not vary with irrigation treatments in any of the years. Fruit soluble solid concentration
(SSC) and fruit relative dry matter (RDM) for RDI-50% was the highest in 2006 when RDI-50% trees had the lowest fruit set.
In 2007, SSC and RDM for RDI-50% were the lowest with the trees having the highest fruit set and crop load at harvest. This
study indicates that RDI-50% firstly applied in an “off” year, after crop has been harvested, can maintain fruit yield at
similar levels to fully irrigated trees while saving water by 45%. Correction of biennial bearing and partial saving of thinning
costs are additional advantages of this treatment. 相似文献
18.
《Agricultural Water Management》2006,84(3):290-294
Measurements of maximum daily trunk shrinkage (MDS) were performed on adult olive (Olea europaea L. cv. Manzanillo) trees in an experimental farm in Seville (Spain). The objective was to study the feasibility of obtaining maximum daily trunk shrinkage baselines or reference values for use in irrigation scheduling. The trees were irrigated daily above their water requirements in order to obtain non-limiting soil water conditions. The results indicated it is possible to obtain baselines for MDS, despite a certain scattering of the data points representing the relations between MDS and the climatic variables (reference evapotranspiration, solar radiation, vapour pressure deficit and temperature). MDS behaviour was best correlated with midday vapour pressure deficit and midday air temperature (r2 = 0.83 and 0.79, respectively). 相似文献
19.
红枣开花坐果期水分信息诊断指标适宜性分析 总被引:6,自引:0,他引:6
通过设置充分灌溉和控制灌溉处理,在陕北研究3年生梨枣茎直径最大日收缩量(MDS)、茎直径日变化最大值(MXTD)、正午叶水势(Ψmd)对土壤水势的响应。结果表明,在无水分亏缺的条件下,MDS和Ψmd表现出一些随季节变化的波动,而MXTD则持续增加。土壤水势降低使MDS增大,MXTD和Ψmd降低,但3个指标对土壤水势变化的反应差异较大,MDS和Ψmd的信号强度明显高于MXTD信号强度,3个指标的杂乱信号(变异系数)之间存在显著差异,MDS杂乱信号最小。MDS信号强度与杂乱信号的比值最大。复水后,MDS降低,Ψmd和MXTD均增加。3个指标的信号强度均降低,降低幅度分别为24%、19%、22%,MDS和Ψmd对复水的反应程度大于MXTD。所以MDS是诊断梨枣水分信息比较适宜的指标。 相似文献
20.
We studied the suitability of empirical crop water stress index (CWSI) averaged over daylight hours (CWSId) for continuous monitoring of water status in apple trees. The relationships between a midday CWSI (CWSIm) and the CWSId and stem water potential (ψ stem), and soil water deficit (SWD) were investigated. The treatments were: (1) non-stressed where the soil water was close to field capacity and (2) mildly stressed where SWD fluctuated between 0 and a maximum allowable depletion (MAD of 50 %). The linear relationship between canopy and air temperature difference (ΔT) and air vapor pressure deficit (VPD) averaged over daylight hours resulted in a non-water-stressed baseline (NWSBL) with higher correlation (?T = ?0.97 VPD – 0.46, R 2 = 0.78, p < 0.001) compared with the conventional midday approach (?T = ?0.59 VPD – 0.67, R 2 = 0.51, p < 0.001). Wind speed and solar radiation showed no significant effect on the daylight NWSBL. There was no statistically meaningful relationship between midday ψ stem and CWSIm. The CWSId agreed well with SWD (R 2 = 0.70, p < 0.001), while the correlation between SWD and CWSIm was substantially weaker (R 2 = 0.38, p = 0.033). The CWSId exhibited high sensitivity to mild variations in the soil water content, suggesting it as a promising indicator of water availability in the root zone. The CWSId is stable under transitional weather conditions as it reflects the daily activity of an apple crop. 相似文献