Evaluating Eriogonum Corymbosum Tolerance to Frequent Irrigation and Evaluating Its Significant Morphological Variations for Potential Cultivars

Hunter, Graham C.

01 May 2013

Two separate experiments were designed to assess the value of Lacy Buckwheat (Eriogonum corymbosum ) as a low water landscape plant. Low water use landscapes can contribute to water conservation in arid climates. Developing a palette of plants that are both attractive and drought tolerant can promote the acceptance of low water use landscapes as an alternative to the traditional bluegrass landscapes of the Intermountain West. Eriogonum corymbosum is an attractive subshrub species native to low rainfall areas of the Colorado Plateau. A strip plot design containing four repetitions with four randomly assigned plants each of Eriogonum corymbosum , Eriogonum thompsoniaeand the control species Cornus sericea `Kelseyi' was established to determine E.corymbosum tolerance to frequent irrigation. Two water treatments were assigned to the repetitions for each species. One treatment was watered by a drip irrigation system with sixteen liters of water every three days; the other treatment was not watered. Stomatal conductance (Gs) and plant water potential were assessed weekly for each species from June through August for the years 2009 and 2010. In 2009 and 2010 bothEriogonum accessions showed no significant difference with the water treatment/accession interaction. NeitherE. corymbosum accession exhibited differences in stomatal conductance or water potential between the wet and dry treatments for the length of study season over both years.Cornus sericea `Kelseyi' showed less ability to withstand the prolonged dry frequencies. Eriogonum corymbosum has many aesthetic qualities, in addition to being drought tolerant, such as long duration late season blooming of yellow and white flowers, and an appealing hemispherical crown shape. A second study was designed to investigate the morphological diversity of thirteen Eriogonum accessions collected in the state of Utah and established in a common garden. Nineteen different variables made up of both quantitative and qualitative morphological characteristics comprised of leaf, canopy and floral characteristics were selected to compare between and within accessions. These characteristics were observed or measured, then used in a Multidimensional Preference analysis (MDPREF) to facilitate the selection of potential cultivars. The MDPREF is useful in selecting accessions with unique combinations of ornamental characteristics that could have a marketable advantage.

common garden

cultivar

erigonum

corymbosum

low water design

stomatal conductance

water potential

Biology

Growth of Clonal Red Maples on Varying Site Conditions in Mississippi and Response to Pneumatic Fracturing and Liquid Injection

Fulgham, David Tildon

03 May 2019

Trunk height, diameter, and stomatal conductance measurements were taken over a three-year time frame on clonal red maple cultivars [Acer rubrum ‘Frank Jr’] on two sites with varying conditions. Physiological and morphological effects on tree growth were measured on both sites in response to Pneumatic Fracturing (PF) and Liquid Injection (LI) treatments. The primary questions asked in study one were: (1) Does stomatal conductance differ among the two sites during mid-summer? and (2) Do height and diameter measures differ among the two sites? In study two, I asked: (1) Do height, diameter and stomatal conductance differ between site modification treatments within each site? Control samples on the Site 2 had significantly more growth than the controls on the Site 1. PF and LI treatments showed significantly more diameter growth on the Site 1 while a significant difference was also seen in stomatal conductance following treatments on Site 1.

shoot height

shoot diameter

stomatal conductance

transpiration

tree

red maple

root

Empirical Studies of Arundinaria Species for Restoration Purposes

Mills, Mary Catherine

30 April 2011

The research in this thesis concentrates on investigation of the ecology of Arundinaria species for restoration purposes. Arundinaria species are key components in the canebrake ecosystem that was once prominent in the southeastern United States. Arundinaria still occurs as an understory component of bottomland hardwood forests, but with intense agricultural development and urbanization over the past 200 years, canebrakes are now a critically endangered ecosystem with greater than 98% loss. Specifically the thesis addresses the establishment of Arundinaria with other plant species and site preparation techniques. This study indicated that A. gigantea planted into plots dominated by non-native plants benefited significantly more from site preparation (soil tillage, herbicide application) than cane planted into native-species-dominated assemblages. The last portion of the research examined effects of inundation on A. gigantea and A. tecta. Arundinaria tecta appeared to be more flood tolerant than A. gigantea, reflecting habitats in which these species are known to occur.

net photosynthesis

Arundinaria gigantea

Arundinaria tecta

canebrake

restoration

rivercane

switchcane

stomatal conductance

site preparation

physiological measurements

Physiological and Molecular Studies on Silicon-Induced Cadmium Tolerance in Rice (<i>Oryza sativa</i> L.)

Nwugo, Chika Charles

05 August 2008

No description available.

Botany

cadmium-stress

chlorophyll fluorescence

EGTA

photosynthesis

proteins

silicon

stomatal conductance

silicon

Functions and relationships of the TMM and SDD1 genes in arabidopsis stomatal development

Bhave, Neela S.

10 December 2007

No description available.

Arabidopsis

Stomata development

TOO MANY MOUTHS

STOMATAL DENSITY AND DISTRIBUTION1

Asymmetric division

Growth and survival during drought: the link between hydraulic architecture and drought tolerance in grasses

Ocheltree, Troy W.

January 1900

Doctor of Philosophy / Department of Agronomy / P.V. Vara Prasad / The pathway for the movement of water through plants, from the soil matrix to the atmosphere, constitutes the hydraulic architecture of a plant. The linkage between the hydraulic architecture of woody plants and drought tolerance has received considerable attention, but much less work has been done on grasses. I investigated the linkage between the hydraulic architecture of grasses to physiological patterns of water use across a range of species and conditions. The rate of stomatal conductance (g[subscript]s) and photosynthesis (A) increased acropetally along the leaves of 5 grass species, which is a unique feature of this growth form. The internal structure of leaves also changed acropetally in order to minimize the pressure gradient across the mesophyll that would otherwise occur as a result of increasing g[subscript]s. The resistance to water movement through the mesophyll represented 80-90% of leaf resistance in six genotypes of Sorghum bicolor L. (Moench). This resistance was most important in controlling g[subscript]s and A when water was readily available, but as soil-moisture decreased it was the efficient transport of water through the xylem that was most important in maintaining plant function. I also investigated the relationship between hydraulic architecture and stomatal responses of grasses to increasing Vapor Pressure Deficit (D). Grasses with a larger proportion of their hydraulic resistance within the xylem were less sensitive to increasing D and plants with high root conductance maintained higher rates of gas exchange D increased. Finally, I investigated the tolerance of grasses to extreme drought events to test if there was a trade-off between drought tolerance and growth in grasses. Plants with drought tolerant leaf traits typically sacrificed the ability to move water efficiently through their leaves. Having drought tolerant leaves did not limit the plants ability to have high rates of gas exchange, and, in fact, the most drought tolerant plants had the high rates of g[subscript]s when expressed on a mass basis. Leaf-level drought tolerance did contribute to species’ occurrence, as the drought intolerant species I studied are not commonly found in low precipitation systems. The results presented here highlight the importance of studying the hydraulic architecture of plants to provide a better understanding of what controls plant function across a range of environmental conditions.

Plant Hydraulic Architecture

Drought Tolerance

Grass Anatomy

Grass Physiology

Stomatal Conductance

Agronomy (0285)

Ecology (0329)

Plant Biology (0309)

Caracterização da capacidade fotossintética e da condutância estomática em árvores de Pinus caribaea var. hondurensis e de Pinus taeda em Itatinga, São Paulo / Characterization of photosynthetic capacity and stomatal conductance in trees of Pinus caribaea var. hondurensis and Pinus taeda in Itatinga, São Paulo

Carneiro, Rafaela Lorenzato

26 August 2013

Realizaram-se campanhas em árvores de cinco anos de idade de Pinus caribaea var. hondurensis e Pinus taeda em parcelas controle (sem fertilização e sem irrigação) e parcelas fertilizadas e irrigadas, durante o verão e o inverno de 2012 visando caracterizar as seguintes variáveis fisiológicas: i) Capacidade máxima fotossintética (Amax); ii) Fotossíntese ao longo do dia (A); iii) Variação da condutância estomática (gs) em relação ao aumento do déficit de pressão de vapor (DPV); e iv) Taxas máximas de carboxilização (Vcmax) e de transporte de elétrons (Jmax) via curvas A/Ci. O estudo foi realizado no projeto Produtividade Potencial do Pinus no Brasil, localizado na Estação Experimental da ESALQ/USP em Itatinga-SP.Foram escolhidas três árvores médias por parcela para as avaliações fisiológicas, realizadas com o LiCor 6400XT. A mensuração da Amax foi realizada no terço médio da copa, em dois galhos por árvore e em duas posições por galho, sendo realizada das 8 às 10 horas, e o comportamento da A, gs com o aumento do DPV, ocorreram de hora em hora, das 11 às 15 horas. Ao final, as acículas foram coletadas para a determinação da área foliar específica (AFE) e do nitrogênio foliar. As curvas A/Ci foram realizadas nas três árvores, um galho por árvore e duas posições por galho, entre 8 e 12 horas. Aos cinco anos o Pinus caribaea var. hondurensis apresenta o dobro do volume de madeira do que o Pinus taeda. As duas avaliações fisiológicas mostraram valores similares entre tratamentos, para cada espécie. Os valores de Amax foram maiores durante o verão e o Pinus caribaea var. hondurensis mostrou grande sensibilidade, comparativamente ao Pinus taeda. Ao analisar os dados de A e gs ao longo do dia, observa-se também maiores variações do Pinus caribaea var. honduresis. Os valores médios de Amax para o verão e o inverno foram 8,2 e 4,8 ?mol m-2 s-1 e 6,8 e 6,3 ?mol m-2 s-1 para o Pinus caribaea var. hondurensis e o Pinus taeda, respectivamente. Ocorreu redução dos valores de A e gs com o aumento do DPV, para ambas as campanhas em relação ao Pinus caribaea var. hondurensis e somente no inverno para o Pinus taeda. As duas espécies apresentaram relação positiva entre fotossíntese e transpiração, sendo que o Pinus caribaea var. hondurensis apresenta maior eficiência no uso da água. As médias da AFE e nitrogênio foliar foram de 9,6 m²kg-1, 10,1g Kg-1 e 10,0 m²kg-1, 13,4g Kg-1, para o Pinus caribaea var. hondurensis e Pinus taeda, respectivamente. Em relação aos parâmetros fotossintéticos o Pinus taeda se destacou em ambas as campanhas, com valores médios de Vcmax e Jmax maiores que o Pinus caribaea var. hondurensis, relacionado à maiores concentrações de nitrogênio foliar. Não houve relação entre o crescimento em biomassa das árvores e as medições da fotossíntese a nível foliar, indicando que outros processos a nível de copa, uso e alocação de fotossintetizados devem ser investigados para explicar a diferença de crescimento. / The campaigns were conducted in trees with five years old of Pinus caribaea var. hondurensis and Pinus taeda in control plots (no fertilization and no irrigation) and fertilized and irrigated plots during summer and winter of 2012 to characterize the physiological variables: i) maximum photosynthetic capacity (Amax), ii) Photosynthesis throughout the day (A); iii) Changes in stomatal conductance (gs) in relation to the increase in vapor pressure deficit (VPD), and iv) Maximum rates of carboxilization (Vcmax) and maximum rates of electron transport (Jmax) based on A/Ci curves. The study was conducted in the project Potential Productivity of Pinus in Brazil, located at the Experimental Station of ESALQ/USP in Itatinga-SP. Three average trees per plot were chosen for physiological evaluations, performed with the LiCor 6400XT. The Amax measurement was performed in the middle third of the crown, in two branches per tree and two positions per branch, taken from 8 to 10am. To get the response of A and gs with increasing VPD, the measurements continued every hour, from 11 am to 3 pm. At the end of the measurements, the needles were collected for determination of specific leaf area (SLA) and leaf nitrogen (N). The A/Ci curves were performed in three trees, one branch per tree and two positions per branch were taken from 8 am to 12 pm. At five years, the Pinus caribaea var. hondurensis showed two-fold the wood volume of Pinus taeda. Both physiological measurements showed similar results between treatments for each species. Amax values were higher during summer, and Pinus caribaea var. hondurensis shower greater sensitivity compared to Pinus taeda. A and gs throughout the day showed higher variation in Pinus caribaea var. hondurensis. The average values of Amax for summer and winter were 8.2, 4.8 ?mol m-2 s-1 and 6.75, 6.3 ?mol m-2 s-1 for Pinus caribaea var. hondurensis and Pinus taeda, respectively. There was a reduction of A and gs with the increasing of DPV, for both campaigns for the Pinus caribaea var. hondurensis and only in winter campaign for Pinus taeda. Thus, the two species have different behaviors in response to climatic changes. The two species showed a positive relationship between photosynthesis and transpiration, with Pinus caribaea var. hondurensis showing greater water use efficiency. The average SLA and needle nitrogen were 9.6 m² kg-1, 10.1g kg-1 and 10 m² kg-1, 13.4g kg-1 for Pinus caribaea var. hondurensis and Pinus taeda, respectively. Photosynthetic parameters in Pinus taeda was higher in both campaigns, with average values of Vcmax and Jmax greater than in Pinus caribaea var. hondurensis, related to higher concentration of needle nitrogen. There was no relationship between tree biomass growth and leaf-level measurements of photosynthesis, indicating that other processes at crown level, use and allocation of photosynthates should be investigated to explain the difference in growth.

A/Ci Curve

Condutância estomática

Curva A/Ci

Déficit de pressão de vapor

Fotossíntese

Phtosynthesis

Pinus

Pinus

Stomatal Conductance

Transpiração

Transpiration

Vapour Pressure Deficit

Physiological responses of forest species to water stress / Respostas fisiológicas de espécies florestais ao estresse hídrico

Otto, Marina Shinkai Gentil

16 September 2015

Abiotic and biotic stresses affect tree growth and play a major role in determining the geographic distribution of species. The objective of this study is to elucidate the following questions: (1) are GABA aminoacid and stomatal control good indicators of tolerance to water stress in Eucalyptus clones? In addition, what are the anatomical differences between drought-tolerant and drought-sensitive clones of Eucalyptus? (2) Are there differences of xylem vulnerability to cavitation in Pinus flexilis families susceptible and resistant to white pine blister rust (WPBR) and with different origins (high and low altitudes)? Two studies were carried out to elucidate the issues above. On chapters 1, eight Eucalyptus clones from different geographical and climatological conditions, three drought-sensitive (CNB, FIB and JAR), three drought-tolerant (GG, SUZ and VM), and two plastics (VER and COP), were studied in normal water supply (control treatment) and in water stress conditions (stress treatment). The first chapter concluded that GABA is an aminoacid very sensitive to water stress, but there was no relation between GABA concentration and tolerance to water stress of the clones. In addition, all clones decreased stomatal conductance with increasing vapor pressure deficit, and plastics and drought-tolerant clones (except GG) presented lower stomatal sensitivity to vapor pressure deficit under stress conditions than drought-sensitive clones. Besides, all clones showed differences on the anatomical parameters between, and only COP (plastic) and SUZ (drought-tolerant) showed homogeneous mesophyll and amphi-hipostomatic leaves. All clones increased the number of stomata and reduced leaf thickness of the leaves formed after water stress period. On the chapter 2, we studied 12 families of Pinus flexilis originating from high and lower altitudes, in which six families previously shown to contain the dominant C4 allele (resistant to WPBR) and six families without C4 allele (susceptible to WPBR). This study showed that the mean cavitation pressure (MCP) of Pinus flexilis varying between 3.63 a -4.84 Mpa, although there was a significant difference in vulnerability to cavitation comparing all families, this variable was not related to WPBR and origin region. These studies highlight that the physiological responses of plants under water stress conditions are important tools that can be used to complement the strategies of genotype selection in forest breeding programs. / Estresses abióticos e bióticos podem afetar o crescimento das árvores e desempenham um papel importante na determinação da distribuição geográfica das espécies. O objetivo deste estudo, foi elucidar as seguintes questões: (1) o aminoácido GABA e o controle estomático são bons indicadores da tolerância ao estresse hídrico em clones de Eucalyptus? E quais são as diferenças anatômicas entre clones de Eucalyptus tolerantes e sensíveis ao estresse hídrico? (2) existem diferenças de vulnerabilidade a cavitação do xilema entre famílias de Pinus flexilis suscetíveis e resistentes à ferrugem do pinho branco (WPBR) e com diferentes procedências (elevada e baixa altitudes)? Dois estudos foram desenvolvidos para elucidar as questões acima descritas. No capítulo 1, oito clones de Eucalyptus de diferentes procedências e condições climáticas, sendo três clones sensíveis ao estresse hídrico (CNB, FIB e JAR), três clones tolerantes ao estresse hídrico (GG, SUZ e VM) e dois clones plásticos (VER e COP), foram estudados sob duas condições distintas: sob adequado suprimento de água (tratamento controle) e sob condições de estresse hídrico (tratamento estresse). Do primeiro capítulo concluiu-se que o GABA é um aminoácido que possui alta sensibilidade ao estresse hídrico, no entanto, não houve relação entre a concentração de GABA e os níveis de tolerância ao estresse hídrico dos clones. Além disso, todos os clones reduziram a condutância estomática em relação ao aumento do déficit de pressão de vapor (DPV), sendo que, sob condições de estresse hídrico, os clones plásticos e tolerantes à seca (exceto o clone GG) apresentaram menor sensibilidade estomática ao DPV do que os clones sensíveis ao estresse hídrico. Além disso, todos os clones apresentaram diferenças anatômicas, sendo que, diferentemente dos demais, os clones COP (plástico) e SUZ (tolerante) apresentaram mesofilo homogêneo e folhas anfi-hipoestomáticas. Todos os clones aumentaram a quantidade de estômatos e reduziram a espessura foliar das folhas formadas após períodos de estresse hídrico. No segundo capítulo foram avaliadas 12 famílias de Pinus flexilis procedentes de regiões de baixa e alta altitudes, sendo seis famílias contendo um alelo dominante C4 (resistente à WPBR) e seis famílias sem o alelo C4 (suscetíveis à WPBR). Este estudo apresentou uma variação da pressão média da cavitação (MCP) para Pinus flexilis de -3,63 a -4,84 Mpa, e embora tenha havido uma diferença significativa da susceptibilidade a cavitação entre todas as famílias estudadas, esta variável não relacionou-se com a susceptibilidade a doença WPBR e com a região de procedência das famílias. Estes estudos comprovam que a avaliação das respostas fisiológicas das plantas sob condições de estresse hídrico são importantes ferramentas que podem ser utilizadas para complementar as estratégias da seleção de genótipos em programas de melhoramento florestal.

Anatomia

Anatomy

Cavitação do xilema

Condutância estomática

GABA

GABA

Stomatal conductance

Stress tolerance

Tolerância ao estresse

Xylem cavitation

Bilan hydrique et développement de culture sous panneaux photovoltaïques dynamiques : de la modélisation à l’évaluation de solutions agrivoltaïques / Water budget and crop growth under dynamic photovoltaic panels : modelling and assessment of agrivoltaic systems

Elamri, Yassin

15 December 2017

L’agrivoltaïque, association sur une même surface d’une production agricole et d’une production d’énergie d’origine photovoltaïque, apparait aujourd’hui comme une solution innovante pour atténuer les effets du changement climatique, notamment sur le secteur agricole. Déjà imaginé en 1982, les premières expérimentations débutées à Montpellier (France) en 2010 ont montré la pertinence de cette association à travers un maintien des rendements sous certaines conditions, une meilleure efficience d’utilisation du sol ainsi qu’une diminution de la consommation en eau des cultures sous ombrage. Suite à ces travaux pionniers réalisés sous des panneaux photovoltaïques à inclinaison fixe, l’utilisation de panneaux dynamiques à inclinaison variable est apparue nécessaire pour réduire l’hétérogénéité du rayonnement disponible pour la culture mais aussi, adapter la stratégie d’ombrage aux besoins radiatifs de la culture au cours de son développement.La présente thèse avait pour objectif de caractériser et de modéliser l’impact de la présence de panneaux solaires sur le bilan hydrique d’une culture conduite sous dispositif agrivoltaïque dynamique en vue d’optimiser la stratégie d’irrigation et le pilotage de l’inclinaison des panneaux. Les expérimentations menées sur une culture de laitues ont mis en évidence l’intérêt de panneaux dynamiques afin de réduire les hétérogénéités radiatives. Le développement d’un modèle de redistribution des pluies par les panneaux photovoltaïques a permis la mise en œuvre d’une stratégie de pilotage de l’inclinaison en temps réel a permis d’homogénéiser les cumuls observés au sol. L’adaptation d’un modèle de bilan hydrique et de développement de culture par l’ajout d’un module décrivant la dynamique stomatique sous ombrage fluctuant a permis de décrire la consommation en eau de la culture et son développement sous différentes stratégies de pilotage de l’ombrage. Enfin, différentes stratégies de pilotage de l’inclinaison des panneaux photovoltaïque ont pu être simulées et évaluées à l’aide d’un indicateur globale intégrant l’efficience d’utilisation du sol, la productivité de l’eau, le décalage de maturité et les sources d’hétérogénéités pouvant affecter la production de laitues. / Agrivoltaism, defined as the association on the same land of agricultural and photovoltaic energy production, appears as an innovating concept to dampen some of the effects of climate change, in the agricultural sector. Although the concept was already imagined in 1982, the first experimentations started in 2010 at Montpellier (France) and showed the relevance of this combination by the maintenance of crop yield under certain conditions, the increase of land use efficiency and a reduction of water consumption for the tested crops. Following this pioneering work done under fixed (but not horizontal) photovoltaic panels, the use of "dynamic" panels, i.e. panels with a variable tilting angle, appears necessary to reduce the spatial heterogeneity of the transmitted radiation but also to adapt the shading strategy to the radiation amount required for crop growth.This thesis aims to characterize and to model the impact of the photovoltaic panels on the water budget of the cultivated plot and to progress towards the optimization of irrigation strategies in such systems controlled by the variations in time of the tilting angle of the panels. Experimentations conduced on lettuces showed the benefits of "dynamic" photovoltaic panels to reduce the radiative heterogeneity. Accounting for rain redistribution by the solar panels permits the implementation of a real time strategy to reduce rainfall heterogeneity on the ground surface. The derivation of a water budget and crop development model which describes the dynamics of stomatal conductance under fluctuating shading allows a better simulation of water consumption and crop development for different shading strategies. Finally, various strategies for the piloting of the solar panels could be tested and evaluated by a new, global index combining land use efficiency, water productivity, maturity delays and heterogeneities (in rain and radiation) which can impact production.

Agrivoltaïque

Bilan hydrique

Stratégie d'ombrage

Laitue

Conductance stomatique

Pluie

Agrivoltaic

Water budget

Shading strategy

Lettuce

Stomatal conductance

Rainfall

Calcium Amelioration of Salinity (Sodicity) on Nitrogen Fixation, Stomatal Resistance, Potassium/Sodium Ratio and Total Nitrogen of Phaseolus vulgaris L.

Akhavan-Kharazian, Mahmood

01 May 1986

Extreme salinity is one of the most common environmental constraints with which legume/rhizobia symbionts must deal in arid and semi-arid regions of the world. In some areas, with good management, it has been economically possible to ameliorate the saline soil with calcium. The objective of this study, therefore, was to investigate calcium amelioration of salinity (sodicity) on nitrogen fixation, stomatal resistance, potassium/sodium ratio, and total nitrogen of Phaseolus vulgaris L. Seeds of snapbeans were grown in pots under green house conditions and were irrigated with NaCl concentrations of 0, 0.4, 0.8 or 1.2 S m-1 combined with CaS04 . 2H20 or CaCl2. 2H20 , each at concentrations of 0, 4, and 8 mM . The results show that increasing NaCl concentration decreased leaf water potential, total leaf chlorophyll, shoot and root dry weight, and nitrogen fixation but increased stomatal diffusive resistance. At the highest level of NaCl, addition of CaS04to NaCl increased leaf water potential via increasing stomatal diffusive resistance. Such effects were not observed with the addition of CaCl2 to NaCl. Addition of CaS04 to all levels of NaCl increased total leaf chlorophyll. The shoot and root dry weight and nitrogen fixation was also increased when CaS04 was added to 0.4 and 0.8 S m-1 NaCl. Again, such effects were not observed with the addition of CaCl2 to NaCl. Furthermore, analysis of leaf mineral composition showed that leaf Ca2+ , Mg2+ and K+ were increased with each increase in NaCl concentration, whereas the K+/ Na+ ratio was decreased. Also, the total leaf nitrogen increased with 0.4 and 1.2 S m-1 NaCl as well as with all levels of CaS04. Neither CaS04 nor CaCl2 had any significant effect on leaf K+, Na+, or Mg2+ of the plant when they were added to different levels of NaCl. However, leaf Ca2+ increased with an increase in concentration of CaS04 or CaCl2, but only CaS04 exhibited an interaction when combined with NaCl. Speciation modeling showed that a considerable amount of S04 was complexed as the CaS04° and NaS04- species. In spite of this, CaS04 treatment had ameliorating effect on NaCl induced salinity symptoms in snapbeans.

Calcium Amelioration

Salinity

Sodicity

Nitrogen Fixation

Stomatal Resistance

Potassium/Sodium Ratio

Total Nitrogen

Phaseolus vulgaris L.

Plant Sciences