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Journal articles on the topic 'Water leaf'

Author: Grafiati
Published: 5 June 2025
Last updated: 2 August 2025

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1

Jian Zuo, Jian Zuo, Zhenwei Zhang Zhenwei Zhang, Liangliang Zhang Liangliang Zhang, Kaijun Mu Kaijun Mu, and Cunlin Zhang Cunlin Zhang. "Research on distribution of leaf water by terahertz spectrum." Chinese Optics Letters 10, s1 (2012): S13001–313003. http://dx.doi.org/10.3788/col201210.s13001.

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2

Dekoum, VM Assaha, Clovis Awasume Awasume, Tabi Tabot Pascal, and Mebong Mfombep Priscilla. "HARVESTING COMPOUNDS THE EFFECT OF WATER DEFICIT ON THE GROWTH AND YIELD OF WATER LEAF [TALINUM TRIANGULARE (JACQ.) WILLD." Journal of Tertiary and Industrial Sciences (JTIS), HTTTC Kumba, University of Buea 3, no. 2 (July, 2023) (2023): 42–54. https://doi.org/10.5281/zenodo.8216293.

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Waterleaf is an important leafy vegetable in many parts of West and Central Africa, which can survive long periods of water deficit owing to its succulence and induced crassulacean acid metabolism. However, it is not known whether harvesting during the offseason i.e. under water-limited conditions can alter the resilience of the plant to adverse environmental conditions. To investigate this, a pot experiment was set up in the screen house in which, uniform-sized cuttings of waterleaf were planted in 10-L pots filled with field soil and irrigated as needed until the plants were established. Ten
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Silviana, Silviana, Bakti Jos, Herry Santosa, and Siswo Sumardiono. "Statistical Approach for Water Glass Precursor Preparation from Bamboo Leaf Silica." Jurnal Kimia Sains dan Aplikasi 22, no. 2 (2019): 52–57. http://dx.doi.org/10.14710/jksa.22.2.52-57.

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The bamboo leaf consists of high silica content. In this study, the bamboo silica was utilized as water glass. Water glass can also be used as eco-friendly precursors for the preparation of silica aerogel. The extraction process of silica from bamboo leaf have been carried out through acid leaching and combustion process at 750°C based on thermal gravimetry analysis. This paper is aimed to assess the effect of two types of alkali hydroxide and concentrations producing water glass of bamboo leaf silica. The result was analyzed by using a 22-factorial design with six replications. The alkali hyd
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4

Taylor, G., and W. J. Davies. "WATER RELATIONS AND LEAF GROWTH." Acta Horticulturae, no. 171 (July 1985): 131–38. http://dx.doi.org/10.17660/actahortic.1985.171.11.

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5

WATANABE, Kenji. "Lotus Leaf and Water Drop:." Journal of Indian and Buddhist Studies (Indogaku Bukkyogaku Kenkyu) 58, no. 2 (2010): 905–898. http://dx.doi.org/10.4259/ibk.58.2_905.

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6

GUO, Tian-tai, Chong-chong GUO, Dong-sheng LI, Ai-jun CHEN, and Ming-ming ZHAO. "Simulation of Leaf Water Status." International Journal of Education and Management Engineering 2, no. 9 (2012): 35–43. http://dx.doi.org/10.5815/ijeme.2012.09.06.

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7

Menzel, C. M., and D. R. Simpson. "Plant water relations in lychee: diurnal variations in leaf conductance and leaf water potential." Agricultural and Forest Meteorology 37, no. 4 (1986): 267–77. http://dx.doi.org/10.1016/0168-1923(86)90065-1.

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8

Rieger, Mark, and Jeff W. Daniell. "Leaf Water Relations, Soil-to-leaf Resistance, and Drought Stress in Pecan Seedlings." Journal of the American Society for Horticultural Science 113, no. 5 (1988): 789–93. http://dx.doi.org/10.21273/jashs.113.5.789.

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Abstract Leaf water relations and soil-to-leaf resistance were studied in 3-month-old pecan [Carya illinoenis (Wangenh.) C. Koch] seedlings as soil dried progressively to minimum water potentials of −0.3, −0.6, and −1.1 MPa in three separate tests. Leaf conductance, transpiration, and predawn leaf water potential declined with increasing soil water deficits, and only predawn leaf water potential fully returned to pre-stress levels after rewatering. Reduced levels of leaf conductance following water stress were apparently caused by internal factors other than leaf water potential. Leaf conducta
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9

Dingkuhn, M., RT Cruz, JC O'Toole, and K. D÷rffling. "Net photosynthesis, water use efficiency, leaf water potential and leaf rolling as affected by water deficit in tropical upland rice." Australian Journal of Agricultural Research 40, no. 6 (1989): 1171. http://dx.doi.org/10.1071/ar9891171.

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Growth and production of tropical upland rice is often impeded by drought. Little is known on varietal response of CO2 assimilation to water deficit under tropical field conditions. A drought-susceptible semidwarf (IR20) and a drought-resistant traditional (Azucena) rice were grown in a dryland field experiment with sprinkler irrigation during the dry season in the Philippines. Differential irrigation was imposed for 11 days during vegetative growth using a line source sprinkler. Net photosynthesis, leaf conductance, transpiration, leaf rolling and leaf water potential were determined during t
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10

CLARKE, JOHN M. "EFFECT OF LEAF ROLLING ON LEAF WATER LOSS IN Triticum spp." Canadian Journal of Plant Science 66, no. 4 (1986): 885–91. http://dx.doi.org/10.4141/cjps86-111.

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The effect of leaf rolling on water loss by wheat (Triticum aestivum L. and T. turgidum L. var. durum) leaves and its relationship to yield and other parameters was studied in field-grown wheat in 1983 and 1984. The influence of rolling on water loss was estimated by measuring water loss from excised leaves held flat during wilting compared to that from control leaves allowed to roll during wilting. Leaf rolling was visually scored for both excised leaves and for intact plants growing in the field. Leaves which were held flat during wilting lost 9–46% more water than the controls, and there wa
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11

ROSADO, BRUNO H. P., EDUARDO A. DE MATTOS, and LEONEL DA S. L. STERNBERG. "Are leaf physiological traits related to leaf water isotopic enrichment in restinga woody species?" Anais da Academia Brasileira de Ciências 85, no. 3 (2013): 1035–46. http://dx.doi.org/10.1590/s0001-37652013005000051.

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During plant-transpiration, water molecules having the lighter stable isotopes of oxygen and hydrogen evaporate and diffuse at a faster rate through the stomata than molecules having the heavier isotopes, which cause isotopic enrichment of leaf water. Although previous models have assumed that leaf water is well-mixed and isotopically uniform, non-uniform stomatal closure, promoting different enrichments between cells, and different pools of water within leaves, due to morpho-physiological traits, might lead to inaccuracies in isotopic models predicting leaf water enrichment. We evaluate the r
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12

Kalapos, Tibor. "Leaf water potential-leaf water deficit relationship for ten species of a semiarid grassland community." Plant and Soil 160, no. 1 (1994): 105–12. http://dx.doi.org/10.1007/bf00150351.

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13

项, 巾娑. "Review of PSY1 Leaf Water Potential Meter in the Determination of Plant Leaf Water Potential." Advances in Microbiology 14, no. 02 (2025): 53–58. https://doi.org/10.12677/amb.2025.142007.

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14

KAHMEN, ANSGAR, KEVIN SIMONIN, KEVIN P. TU та ін. "Effects of environmental parameters, leaf physiological properties and leaf water relations on leaf water δ18O enrichment in different Eucalyptus species". Plant, Cell & Environment 31, № 6 (2008): 738–51. http://dx.doi.org/10.1111/j.1365-3040.2008.01784.x.

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15

Muda, Strayker Ali, Benyamin Lakitan, Fitri Ramadhani, and Juwinda. "Butterhead lettuce growth under shallow water tables and its recovery on tropical urban ecosystem." Advances in Horticultural Science 38, no. 4 (2025): 327–37. https://doi.org/10.36253/ahsc-16233.

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Butterhead lettuce (Lactuca sativa var. capitata) is a nutrient-rich leafy vegetable beneficial for human health. Lettuce growth and yield performance hampered under water stress conditions. This study aimed to assess its growth and recovery under short-term shallow water conditions in the tropical urban ecosystem. A randomized block design was used with three water table treatments: 16.7 cm, 12.7 cm, and 9.7 cm from the substrate surface. The Results showed that butterhead lettuce is intolerant of excess water, with stunted growth at the 9.7 cm water level, by affecting leaf length, leaf widt
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16

Singh, S., T. N. Singh, and J. S. Chauhan. "Living With Limited Water, Part II: Dynamics of Leaf Rolling, Leaf Water Homeostasis and Water Economy by Hybrid Rice." Journal of Crop Improvement 25, no. 4 (2011): 435–57. http://dx.doi.org/10.1080/15427528.2011.583559.

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17

Pagano, Baldacci, Ottomaniello, et al. "THz Water Transmittance and Leaf Surface Area: An Effective Nondestructive Method for Determining Leaf Water Content." Sensors 19, no. 22 (2019): 4838. http://dx.doi.org/10.3390/s19224838.

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Water availability is a major limiting factor in plant productivity and plays a key role in plant species distribution over a given area. New technologies, such as terahertz quantum cascade lasers (THz-QCLs) have proven to be non-invasive, effective, and accurate tools for measuring and monitoring leaf water content. This study explores the feasibility of using an advanced THz-QCL device for measuring the absolute leaf water content in Corylus avellana L., Laurus nobilis L., Ostrya carpinifolia Scop., Quercus ilex L., Quercus suber L., and Vitis vinifera L. (cv. Sangiovese). A recently propose
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18

Sperry, J. S., U. G. Hacke, R. Oren, and J. P. Comstock. "Water deficits and hydraulic limits to leaf water supply." Plant, Cell & Environment 25, no. 2 (2002): 251–63. http://dx.doi.org/10.1046/j.0016-8025.2001.00799.x.

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19

Long, Randall W., and Juliana S. Medeiros. "Water in, water out: root form influences leaf function." New Phytologist 229, no. 3 (2020): 1186–88. http://dx.doi.org/10.1111/nph.16962.

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20

Meihana, Mei, Benyamin Lakitan, Susilawati, et al. "Steady shallow water table did not decrease leaf expansion rate, specific leaf weight, and specific leaf water content in tomato plants." Australian Journal of Crop Science 11, no. 12 (2017): 1635–41. http://dx.doi.org/10.21475/ajcs.17.11.12.pne808.

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21

KIKUCHI, Kenji, Keita SATO, and Osamu MOCHIZUKI. "2G35 Water flow in leaf vein." Proceedings of the Bioengineering Conference Annual Meeting of BED/JSME 2014.26 (2014): 541–42. http://dx.doi.org/10.1299/jsmebio.2014.26.541.

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22

Schymanski, Stanislaus J., and Dani Or. "Wind increases leaf water use efficiency." Plant, Cell & Environment 39, no. 7 (2016): 1448–59. http://dx.doi.org/10.1111/pce.12700.

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23

Sexton, Thomas M., Camille M. Steber, and Asaph B. Cousins. "Leaf temperature impacts canopy water use efficiency independent of changes in leaf level water use efficiency." Journal of Plant Physiology 258-259 (March 2021): 153357. http://dx.doi.org/10.1016/j.jplph.2020.153357.

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24

Larcher, Leticia, Ikuko Hara‐Nishimura, and Leonel Sternberg. "Effects of stomatal density and leaf water content on the 18 O enrichment of leaf water." New Phytologist 206, no. 1 (2014): 141–51. http://dx.doi.org/10.1111/nph.13154.

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25

Bauerle, William L., William W. Inman, and Jerry B. Dudley. "Leaf Abscisic Acid Accumulation in Response To Substrate Water Content: Linking Leaf Gas Exchange Regulation with Leaf Abscisic Acid Concentration." Journal of the American Society for Horticultural Science 131, no. 2 (2006): 295–301. http://dx.doi.org/10.21273/jashs.131.2.295.

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Quantitative differences in leaf abscisic acid (ABAL) among four cultivars of red maple (Acer rubrum L.) and one freeman maple (Acer ×freemanii E. Murray) cultivar were investigated. This study tested the hypothesis that ABAL concentration can be used to compare the effects of water stress on the gas exchange response of five different maple genotypes, including four red maple cultivars [`Summer Red', `October Glory', `Autumn Flame', and `Franksred' ('Red Sunset')] and one hybridized freeman maple cultivar ['Jeffersred' ('Autumn Blaze')]. Two-year-old cloned genotypes of red maple and freeman
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26

Silva, O. N., A. K. S. Lobato, F. W. Ávila, et al. "Silicon-induced increase in chlorophyll is modulated by the leaf water potential in two water-deficient tomato cultivars." Plant, Soil and Environment 58, No. 11 (2012): 481–86. http://dx.doi.org/10.17221/213/2012-pse.

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This study aims to explain the effects of silicon on chlorophyll and to measure gas exchange and carbohydrate levels in two Lycopersicon esculentum cultivars that are exposed to drought. The experimental design used in this study was a randomised combination of five different water and silicon conditions (control, water deficit + 0.00 μmol Si, water deficit + 0.25 μmol Si, water deficit + 1.00 μmol Si, and water deficit + 1.75 μmol Si) applied to the two cultivars (Super Marmante and Santa Cruz). Parameters measured were gas exchanges, chlorophylls, and total solubl
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27

Glenn, D. Michael, Nicola Cooley, Rob Walker, Peter Clingeleffer, and Krista Shellie. "Impact of Kaolin Particle Film and Water Deficit on Wine Grape Water Use Efficiency and Plant Water Relations." HortScience 45, no. 8 (2010): 1178–87. http://dx.doi.org/10.21273/hortsci.45.8.1178.

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Water use efficiency (WUE) and response of grape vines (Vitis vinifera L. cvs. ‘Cabernet Sauvignon’, ‘Merlot’, and ‘Viognier’) to a particle film treatment (PFT) under varying levels of applied water were evaluated in Victoria, Australia, and southwestern Idaho. Vines that received the least amount of water had the warmest canopy or leaf surface temperature and the lowest (more negative) leaf water potential, stomatal conductance (gS), transpiration (E), and photosynthesis (A). Vines with plus-PFT had cooler leaf and canopy temperature than non-PFT vines; however, temperature difference result
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28

Li, Duan, Jianhua Si, Xiaoyou Zhang, et al. "Comparison of Branch Water Relations in Two Riparian Species: Populus euphratica and Tamarix ramosissima." Sustainability 11, no. 19 (2019): 5461. http://dx.doi.org/10.3390/su11195461.

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Water relations in plants maintain healthy tree branches and drought conditions during plant growth may affect water relations, but the mechanisms are poorly known. In our study, we determined the stomatal conductance, hydraulic conductance, water potential and ion concentration of xylem sap to increase the understanding of changes in water relations in branches of Populus euphratica (P. euphratica) and Tamarix ramosissima (T. ramosissima), which are the dominant plant species in the lower reaches of the Heihe River Basin in China. The results showed that both species responded to vapor pressu
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29

Mansouri, S., and L. Radhouane. "MORPHOLOGICAL CHARACTERISTICS AND WATER STATUS OF SOME TUNISIAN BARLEY GENOTYPES SUBMITTED TO WATER STRESS." International Journal of Research - GRANTHAALAYAH 3, no. 5 (2017): 60–76. https://doi.org/10.5281/zenodo.883572.

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Tunisia has been qualified as a country vulnerable to climate change that will be unregistered a great drop of annual rainfall and an increase of evaporation. Response strategies of agriculture to drought will be critical because drought is one of the major abiotic stresses which adversely affect crop growth and yield. Among strategies to be developed to cope with the effect of climate change, recourse of genetic diversity and new varietal creation can be a solution among other methods. In this study, four barley genotypes were cultivated in semi-controlled conditions and submitted to three le
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30

Seelig, H. D., A. Hoehn, L. S. Stodieck, D. M. Klaus, W. W. Adams, and W. J. Emery. "Relations of remote sensing leaf water indices to leaf water thickness in cowpea, bean, and sugarbeet plants." Remote Sensing of Environment 112, no. 2 (2008): 445–55. http://dx.doi.org/10.1016/j.rse.2007.05.002.

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31

Menzel, C. M., and D. R. Simpson. "Plant water relations in lychee: Effects of solar radiation interception on leaf conductance and leaf water potential." Agricultural and Forest Meteorology 37, no. 4 (1986): 259–66. http://dx.doi.org/10.1016/0168-1923(86)90064-x.

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32

Monteiro, Madalena Vaz, Tijana Blanuša, Anne Verhoef, Paul Hadley, and Ross W. F. Cameron. "Relative importance of transpiration rate and leaf morphological traits for the regulation of leaf temperature." Australian Journal of Botany 64, no. 1 (2016): 32. http://dx.doi.org/10.1071/bt15198.

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Urban greening solutions such as green roofs help improve residents’ thermal comfort and building insulation. However, not all plants provide the same level of cooling. This is partially due to differences in plant structure and function, including different mechanisms that plants employ to regulate leaf temperature. Ranking of multiple leaf and plant traits involved in the regulation of leaf temperature (and, consequently, plants’ cooling ‘service’) is not well understood. We, therefore, investigated the relative importance of water loss, leaf colour, thickness and extent of pubescence for th
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33

Baumann, Dana L., Beth Ann Workmaster, and Kevin R. Kosola. "`Ben Lear' and `Stevens' Cranberry Root and Shoot Growth Response to Soil Water Potential." HortScience 40, no. 3 (2005): 795–98. http://dx.doi.org/10.21273/hortsci.40.3.795.

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Wisconsin cranberry growers report that fruit production by the cranberry cultivar `Ben Lear' (Vaccinium macrocarpon Ait.) is low in beds with poor drainage, while the cultivar `Stevens' is less sensitive to these conditions. We hypothesized that `Ben Lear' and `Stevens' would differ in their root growth and mortality response to variation in soil water potential. Rooted cuttings of each cultivar were grown in a green-house in sand-filled pots with three different soil water potentials which were regulated by a hanging water column below a fritted ceramic plate. A minirhizotron camera was used
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34

Barbour, M. M., G. D. Farquhar, and T. N. Buckley. "Leaf water stable isotopes and water transport outside the xylem." Plant, Cell & Environment 40, no. 6 (2016): 914–20. http://dx.doi.org/10.1111/pce.12845.

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35

Barrett, James E., and Terril A. Nell. "Water Relations and Water Potential Measurements for Vegetative Poinsettia." Journal of the American Society for Horticultural Science 111, no. 5 (1986): 773–76. http://dx.doi.org/10.21273/jashs.111.5.773.

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Abstract Pressure chamber and thermocouple psychrometer measurements of leaf water potentials in vegetative Euphorbia pulcherrima Willd. cv. Eckespoint C-l Red were evaluated. The 2 methods agreed within 0.2 MPa between −0.3 and −1.8 MPa and were equal at −1.1 MPa. Minimum daily water potential for nonstressed plants reached −0.67 MPa by 1230 hr. Abaxial water vapor conductance and water potential varied little between 1230 and 1630 hr. When drought was imposed, incipient stomatal closure occurred at −0.8 MPa with full closure observed at −1.2 MPa. Complete loss of turgor pressure occurred at
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36

Passioura, John B., and Rana Munns. "Rapid environmental changes that affect leaf water status induce transient surges or pauses in leaf expansion rate." Functional Plant Biology 27, no. 10 (2000): 941. http://dx.doi.org/10.1071/pp99207.

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We subjected wheat and barley plants to rapid environmental changes, and monitored leaf elongation rates for several hours thereafter. Changes in light, humidity or salinity caused sudden rises (if the leaf water status rose) or falls (if the leaf water status fell) in leaf elongation rate, followed by a recovery phase that lasted 20–60 min. After a step change in light or humidity, the growing leaf eventually resumed its original elongation rate, although the shoot water status, as monitored by leaf thickness, differed markedly. Salinity, on the other hand, produced a persistent change in lea
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37

Dingkuhn, M., Datta SK De, K. Dorffling, C. Javellana, and SKde Datta. "Varietal differences in leaf water potential, leaf net CO2 assimilation, conductivity and water use efficiency in upland rice." Australian Journal of Agricultural Research 40, no. 6 (1989): 1183. http://dx.doi.org/10.1071/ar9891183.

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Twenty-eight rice (Oryza sativa L.) genotypes of different origin and habitat were grown in upland culture during the dry season in the Philippines. Irrigation was supplied by overhead sprinklers at a level which kept the crop under continuous mild water stress. Leaf net CO2 assimilation, conductivity, intercellular CO2 concentration, water potential and leaf rolling status were determined on the same leaf of all varieties between 0900 and 1200 hours during the vegetative growth stage.Leaf water potential ranged from -0.8 and -1.3 MPa, with japonica types showing the highest values, AUS types
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38

WANG, G. Y., X. B. ZHOU, and Y. H. CHEN. "Planting pattern and irrigation effects on water status of winter wheat." Journal of Agricultural Science 154, no. 8 (2016): 1362–77. http://dx.doi.org/10.1017/s0021859615001197.

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SUMMARYThe effects of planting pattern and irrigation on the soil water content, stomatal conductance, leaf relative water content, leaf water potential and leaf water use efficiency of winter wheat were investigated in North China during the 2008/09 and 2009/10 growing seasons. A field experiment was conducted using a randomized complete block design that consisted of three planting patterns: (i) a uniform row spacing of 25 cm, and alternating wide–narrow row spacing of 40 and 20 cm tested as (ii) flat and (iii) furrow–ridge seedbeds. In addition, irrigation treatments of 90, 135 and 180 mm w
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39

Zobel, Donald B. "Variation of water relations parameters with extended rehydration time, leaf form, season, and proportion of leaf." Canadian Journal of Forest Research 26, no. 2 (1996): 175–85. http://dx.doi.org/10.1139/x26-021.

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Pressure–volume curves were measured in October, February, and July for twigs of three deciduous, three evergreen broadleaf, four pine, and two other conifer species in the southern Appalachian Mountains, U.S.A. Data were analyzed to determine the influence on water relations parameters of rehydration time, sample leafiness, leaf form, season, and species within leaf form. Results of samples rehydrated overnight did not differ significantly from results of samples rehydrated overnight plus 24 h. Leafiness (leaf dry mass/sample dry mass) was occasionally related to water relations parameters. W
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40

Tombesi, Sergio, Tommaso Frioni, Francesca Grisafi, Paolo Sabbatini, Stefano Poni, and Alberto Palliotti. "The Decrease of Leaf Dark Respiration during Water Stress Is Related to Leaf Non-Structural Carbohydrate Pool in Vitis vinifera L." Plants 11, no. 1 (2021): 36. http://dx.doi.org/10.3390/plants11010036.

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Dark respiration (Rd) is a fundamental plant process used to gain biomass and maintain plant physiological activity. It accounts for the metabolization of a large share of the carbon fixed by photosynthesis. However, Rd during conditions of severe plant water stress is still poorly understood. The decrease in leaf transpiration increases temperature, one of the most important drivers of leaf Rd. On the other hand, water stress decreases the pool of leaf carbohydrates, which are the most important substrate for respiration. The aim of the present work was to determine the impact of water shorta
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41

Holloway-Phillips, Meisha, Lucas A. Cernusak, Margaret Barbour, et al. "Leaf vein fraction influences the Péclet effect and18O enrichment in leaf water." Plant, Cell & Environment 39, no. 11 (2016): 2414–27. http://dx.doi.org/10.1111/pce.12792.

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42

Liang, Jie, Jonathan S. Wright, Xiaowei Cui, Leonel Sternberg, Weixiu Gan, and Guanghui Lin. "Leaf anatomical traits determine the18O enrichment of leaf water in coastal halophytes." Plant, Cell & Environment 41, no. 12 (2018): 2744–57. http://dx.doi.org/10.1111/pce.13398.

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43

Peinetti, R., and J. F. Ledent. "Effect of Water Status on Leaf Angle and Leaf Movement in Wheat." Journal of Agronomy and Crop Science 165, no. 4 (1990): 263–67. http://dx.doi.org/10.1111/j.1439-037x.1990.tb00861.x.

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44

Tipple, B. J., M. A. Berke, C. E. Doman, S. Khachaturyan, and J. R. Ehleringer. "Leaf-wax n-alkanes record the plant-water environment at leaf flush." Proceedings of the National Academy of Sciences 110, no. 7 (2013): 2659–64. http://dx.doi.org/10.1073/pnas.1213875110.

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45

Gaudillère, J. P. "Leaf number, water stress and carbon nutrition effects on poplar leaf growth." Annales des Sciences Forestières 46, Supplement (1989): 493s—496s. http://dx.doi.org/10.1051/forest:198905art0110.

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46

Stirzaker, R. J., P. T. Hayman, and B. G. Sutton. "Misting of Tomato Plants Improves Leaf Water Status but not Leaf Growth." Functional Plant Biology 24, no. 1 (1997): 9. http://dx.doi.org/10.1071/pp95055.

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Field and laboratory experiments were carried out to determine whether modification of the aerial environment in a hot climate would improve the leaf growth rate and ultimately the yield of well- irrigated processing tomatoes, Lycopersicon esculentum Mill. cv. UC82B. In the field, the transpiration rate was modified by frequent applications of a fine mist. Misting reduced the diurnal fall in leaf water potential by up to 0.5 MPa, but had no effect on weekly vegetative growth or fruit yield, compared to a control treatment which was not misted but had accurately managed drip irrigation. To inve
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47

Ding, Junyan, Edward A. Johnson, and Yvonne E. Martin. "Optimization of leaf morphology in relation to leaf water status: A theory." Ecology and Evolution 10, no. 3 (2020): 1510–25. http://dx.doi.org/10.1002/ece3.6004.

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48

Huang, Bingru, Jack Fry, and Bin Wang. "Water Relations and Canopy Characteristics of Tall Fescue Cultivars during and after Drought Stress." HortScience 33, no. 5 (1998): 837–40. http://dx.doi.org/10.21273/hortsci.33.5.837.

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Understanding factors associated with drought resistance and recovery from drought stress in tall fescue (Festuca arundinaces Schreb.) is important for developing resistant cultivars and effective management strategies. Our objective was to investigate water relations, photosynthetic efficiency, and canopy characteristics of tall fescue cultivars (forage-type `Kentucky-31', turf-type `Mustang', and dwarf-type `MIC18') in responses to drought stress and subsequent recovery in the field and greenhouse. During drought stress under field conditions, `MIC18' had lower turf quality, more severe leaf
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49

Huang, Weixia, Yunfang Zhong, Cuili Zhang, Mingxun Ren, Yanjun Du, and Xiqiang Song. "Leaf Traits and Water-Use Characteristics of Impatiens hainanensis, a Limestone-Endemic Plant under Different Altitudes in Dry and Foggy Seasons." Water 14, no. 2 (2022): 139. http://dx.doi.org/10.3390/w14020139.

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The southwestern mountains of Hainan Island are distributed in the southernmost tropical karst landscape of China, and the unique hydrological structure and frequent solifluction droughts lead to double water stress for local plants. Highly heterogeneous water environments affect the water–use characteristics of plants. Plants develop local adaptative mechanisms in response to changes in the external environment. In this paper, hydrogen–oxygen and carbon stable isotope technology, and physiological index measurements were applied to determine the leaf traits, water–use efficiency, and photosyn
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50

Zhang, Baolin, and Douglas D. Archbold. "DIURNAL CHANGES IN LEAF CONDUCTANCE AND WATER RELATIONS IN FRAGARIA CHILOENSIS AND F. VIRGINIANA FOLLOWING WATER DEFICIT STRESS." HortScience 25, no. 9 (1990): 1105a—1105. http://dx.doi.org/10.21273/hortsci.25.9.1105a.

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Plants of F. chiloensis cv. BSP14 (FC) and F. virginiana cv. NCC85-13V (FV) were stressed until wilting, then watered for 2 days prior to measurement. Diurnal measurements of leaf conductance and water relations were conducted. Leaf conductance of stressed FC plants was generally lower, than that of controls at most times, but there wee no difference between the two in FV. Leaf conductance and transpiration rates had not fully recovered to pre-stress levels within this recovery period, Leaf wafer potential declined from predawn to midday, more in stressed than control plants of both species. L
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