Annex 1. Crop salt tolerance data

Introduction

In 1985, FAO published a revised version of Irrigation and Drainage Paper No. 29. This publication incorporated an extensive list of crop salt tolerance data. Since then, Maas and Grattan (1999) have published updated lists of salt tolerance data. This annex reproduces these data together with the introductory sections.

Crop yield response functions

The salt tolerance of a crop can best be described by plotting its relative yield as a continuous function of soil salinity. For most crops, this response function follows a sigmoidal relationship. However, some crops may die before the seed or fruit yields decrease to zero, thus eliminating the bottom part of the sigmoidal curve. Maas and Hoffman (1977) proposed that this response curve could be represented by two line segments: one, a tolerance plateau with a zero slope, and the other, a concentration-dependent line whose slope indicates the yield reduction per unit increase in salinity. The point at which the two lines intersect designates the threshold, i.e. the maximum soil salinity that does not reduce yield below that obtained under non-saline conditions. This two-piece linear response function provides a reasonably good fit for commercially acceptable yields plotted against the electrical conductivity of the saturated paste (EC_e). EC_e is the traditional soil salinity measurement with units of decisiemens per metre (1 dS/m = 1 mmho/cm). For soil salinities exceeding the threshold of any given crop, relative yield (Y_r) can be estimated with the following equation:

Y_r = 100 - b(EC_e - a) (1)

where a = the salinity threshold expressed in dS/m; b = the slope expressed in percent per dS/m; and EC_e = the mean electrical conductivity of a saturated paste taken from the rootzone.

The two-piece linear response function is also reasonably accurate when salinity is expressed in terms of the osmotic potential of the soil solution at field capacity (OP_fc). When the OP_fc is known, yield responses can be determined as a function of the osmotic stress that the plants experience. For osmotic potentials exceeding the threshold of a crop:

Y_r = 100 - B(Op_fc - A) (2)

where A = the salinity threshold expressed in bars; B = the slope expressed in percent per bar; and OP_fc = osmotic potential of the soil water extracted from the rootzone at field capacity. Equation 2, like Equation 1, is linear even though OP_fc is not a linear function of EC_e. However, the deviation from linearity is small, and relative yields calculated from Equation 2 are within 2 percent of those calculated from Equation 1. The salt tolerance data in the subsequent sections are expressed in terms of EC_e. Threshold (A) and slope (B) parameters in terms of OP_fc can be determined from the EC_e data with the following relationships:

A = -0.725a^1.06 (3)

(4)

These equations are based on the relationship, OP_fc = -0.725 EC_e1.06, which was obtained from Figure 6 of the USDA Handbook No. 60 (USSL, 1954) after converting osmotic pressure in atmospheres at 0°C to osmotic potential in bars at 25°C. It is further assumed that the soluble salt concentration in the soil water at field capacity is twice that of the saturated-soil extract.

The threshold and slope concept has its greatest value in providing general salt tolerance guidelines for crop management decisions. Farmers need to know the soil salinity levels that begin to reduce yield and how much yield will be reduced at levels above the threshold. However, more precise plant response functions would be advantageous for crop simulation modelling. Van Genuchten and Hoffman (1984) have described several non-linear models that more accurately describe the sigmoidal growth response of plants to salinity. Computer programs for these models were developed and documented by Van Genuchten (1983).

Salt tolerance data

Herbaceous crops

Table A1.1 lists threshold and slope values for 81 crops in terms of EC_e. Most of the data were obtained where crops were grown under conditions simulating recommended cultural and management practices for commercial production. Consequently, the data indicate relative tolerances of different crops grown under different conditions and not under a standardized set of conditions. Furthermore, the data apply only where crops are exposed to fairly uniform salinities from the late seedling stage to maturity. Where crops have particularly sensitive stages, the tolerance limits are given in the footnotes.

Figure A1.1. Division for classifying crop tolerance to salinity

The data in Table A1.1 apply to soils where chloride is the predominant anion. Because of the dissolution of CaSO₄ when preparing saturated-soil extracts, the EC_e of gypsiferous (non-sodic, low Mg²⁺) soils will be 1-3 dS/m higher than that of non-gypsiferous soils having the same soil water conductivity at field capacity (Bernstein, 1962). The extent of this dissolution depends upon the exchangeable ion composition, CEC, and solution composition. Therefore, plants grown on gypsiferous soils will tolerate EC_es approximately 2 dS/m higher than those listed in Table A1.1. The last column provides a qualitative salt tolerance rating that is useful in categorizing crops in general terms. Figure A1.1 illustrates the limits of these categories. Some crops have only a qualitative rating because the experimental data are inadequate for calculating the threshold and slope.

Woody crops

The salt tolerance of trees, vines and other woody crops is complicated because of additional detrimental effects caused by specific ion toxicities. Many perennial woody species are susceptible to foliar injury caused by the toxic accumulation of Cl- and/or Na+ in the leaves. Because different cultivars and rootstocks absorb Cl- and Na+ at different rates, considerable variation in tolerance may occur within an individual species.

In the absence of specific-ion effects, the tolerance of woody crops, like that of herbaceous crops, can be expressed as a function of the concentration of total soluble salts or osmotic potential of the soil solution. One could expect this condition to obtain for those cultivars and rootstocks that restrict the uptake of Cl- and Na+. The salt tolerance data in Table A1.2 are believed to be reasonably accurate in the absence of specific-ion toxicities. Because of the cost and time required to obtain fruit yields, tolerances of several crops have been determined for vegetative growth only. In contrast to other crop groups, most woody fruit and nut crops tend to be salt sensitive, even in the absence of specific-ion effects. Only date-palm is relatively salt tolerant, whereas olive and a few others are believed to be moderately tolerant.

Table A1.1. Salt tolerance of herbaceous crops^†

Crop			Salt Tolerance Parameters
Common name	Botanical name^‡	Tolerance based on	*Threshold^§ (EC_e)*	Slope	Rating^¶	References
Common name	Botanical name^‡	Tolerance based on	dS/m	% per dS/m	Rating^¶	References
Fibre, grain and special crops
Artichoke, Jerusalem	Helianthus tuberosus L.	Tuber yield	0.4	9.6	MS	Newton et al., 1991
Barley^#	Hordeum vulgare L.	Grain yield	8.0	5.0	T	Ayars et al., 1952; Hassan et al., 1970a
Canola or rapeseed	Brassica campestris L. [syn. B. rapa L.]	Seed yield	9.7	14	T	Francois, 1994a
Canola or rapeseed	B. napus L.	Seed yield	11.0	13	T	Francois, 1994a
Chickpea	Cicer arietinum L.	Seed yield	-	-	MS	Manchanda & Sharma, 1989; Ram et al., 1989
Corn^‡‡	Zea mays L.	Ear FW	1.7	12	MS	Bernstein & Ayars, 1949b; Kaddah & Ghowail, 1964
Cotton	Gossypium hirsutum L.	Seed cotton yield	7.7	5.2	T	Bernstein, 1955, 1956; Bernstein & Ford, 1959a
Crambe	Crambe abyssinica Hochst. ex R.E. Fries	Seed yield	2.0	6.5	MS	Francois & Kleiman, 1990
Flax	Linum usitatissimum L.	Seed yield	1.7	12	MS	Hayward & Spurr, 1944
Guar	Cyamopsis tetragonoloba (L). Taub.	Seed yield	8.8	17	T	Francois et al., 1990
Kenaf	Hibiscus cannabinus L.	Stem DW	8.1	11.6	T	Francois et al., 1992
Millet, channel	Echinochloa turnerana (Domin) J.M. Black	Grain yield	-	-	T	Shannon et al., 1981
Oats	Avena sativa L.	Grain yield	-	-	T	Mishra & Shitole, 1986; USSL^††
Peanut	Arachis hypogaea L.	Seed yield	3.2	29	MS	Shalhevet et al., 1969
Rice, paddy	Oryza sativa L.	Grain yield	3.0^§§	12^§§	S	Ehrler, 1960; Narale et al., 1969; Pearson, 1959; Venkateswarlu et al., 1972
Roselle	Hibiscus sabdariffa L.	Stem DW	-	-	MT	El-Saidi & Hawash, 1971
Rye	Secale cereale L.	Grain yield	11.4	10.8	T	Francois et al., 1989
Safflower	Carthamus tinctorius L.	Seed yield	-	-	MT	Francois & Bernstein, 1964b
Sesame^¶¶	Sesamum indicum L.	Pod DW	-	-	S	Yousif et al., 1972
Sorghum	Sorghum bicolor (L.) Moench	Grain yield	6.8	16	MT	Francois et al., 1984
Soybean	Glycine max (L.) Merrrill	Seed yield	5.0	20	MT	Abel & McKenzie, 1964; Bernstein et al., 1955; Bernstein & Ogata, 1966
Sugar beet^##	Beta vulgaris L.	Storage root	7.0	5.9	T	Bower et al., 1954
Sugar cane	Saccharum officinarum L.	Shoot DW	1.7	5.9	MS	Bernstein et al., 1966; Dev & Bajwa, 1972; Syed & El-Swaify, 1972
Sunflower	Helianthus annuus L.	Seed yield	4.8	5.0	MT	Cheng, 1983; Francois, 1996
Triticale	X Triticosecale Wittmack	Grain yield	6.1	2.5	T	Francois et al., 1988
Wheat	Triticum aestivum L.	Grain yield	6.0	7.1	MT	Asana & Kale, 1965; Ayers et al., 1952; Hayward & Uhvits, 1944
Wheat (semi-dwarf)^†††	T. aestivum L.	Grain yield	8.6	3.0	T	Francois et al., 1986
Wheat, Durum	T. turgidum L. var. durum Desf.	Grain yield	5.9	3.8	T	Francois et al., 1986
Alfalfa	Medicago sativa L.	Shoot DW	2.0	7.3	MS	Bernstein & Francois, 1973; Bernstein & Ogata, 1966; Bower et al., 1969; Brown & Hayward, 1956; Gauch & Magistad, 1943; Hoffman et al., 1975
Alkaligrass, Nuttall	Puccinellia airoides (Nutt.) Wats. & Coult.	Shoot DW	-	-	T*	USSL Staff, 1954
Alkali sacaton	Sporobolus airoides Torr.	Shoot DW	-	-	T*	USSL Staff, 1954
Barley (forage)^#	Hordeum vulgare L.	Shoot DW	6.0	7.1	MT	Dregne, 1962; Hassan et al., 1970a
Bentgrass, creeping	Agrostis stolonifera L.	Shoot DW	-	-	MS	Youngner et al., 1967
Bermudagrass^‡‡‡	Cynodon dactylon (L.) Pers.	Shoot DW	6.9	6.4	T	Bernstein & Ford, 1959b; Bernstein & Francois, 1962; Langdale & Thomas, 1971
Bluestem, Angleton	Dichanthium aristatum (Poir.) C.E. Hubb. [syn. Andropogon nodosus (Willem.) Nash]	Shoot DW	-	-	MS*	Gausman et al., 1954
Broad bean	Vicia faba L.	Shoot DW	1.6	9.6	MS	Ayars & Eberhard, 1960
Brome, mountain	Bromus marginatus Nees ex Steud.	Shoot DW	-	-	MT*	USSL Staff, 1954
Brome, smooth	B. inermis Leyss	Shoot DW	-	-	MT	McElgunn & Lawrence, 1973
Buffelgrass	Pennisetum ciliare (L). Link. [syn. Cenchrus ciliaris]	Shoot DW	-	-	MS*	Gausman et al., 1954
Burnet	Poterium sanguisorba L.	Shoot DW	-	-	MS*	USSL Staff, 1954
Canarygrass, reed	Phalaris arundinacea L.	Shoot DW	-	-	MT	McElgunn & Lawrence, 1973
Clover, alsike	Trifolium hybridum L.	Shoot DW	1.5	12	MS	Ayars, 1948a
Clover, Berseem	T. alexandrinum L.	Shoot DW	1.5	5.7	MS	Asghar et al., 1962; Ayars & Eberhard, 1958; Ravikovitch & Porath, 1967; Ravikovitch & Yoles, 1971
Clover, Hubam	Melilotus alba Dest. var. annua H.S.Coe	Shoot DW	-	-	MT*	USSL Staff, 1954
Clover, ladino	Trifolium repens L.	Shoot DW	1.5	12	MS	Ayars, 1948a; Gauch & Magistad, 1943
Clover, Persian	T. resupinatum L.	Shoot DW	-	-	MS*	de Forges, 1970
Clover, red	T. pratense L.	Shoot DW	1.5	12	MS	Ayars, 1948a; Saini, 1972
Clover, strawberry	T. fragiferum L.	Shoot DW	1.5	12	MS	Ayars, 1948a; Bernstein & Ford, 1959b; Gauch & Magistad, 1943
Clover, sweet	Melilotus sp. Mill.	Shoot DW	-	-	MT*	USSL Staff, 1954
Clover, white Dutch	Trifolium repens L.	Shoot DW	-	-	MS*	USSL Staff, 1954
Corn (forage)^††	Zea mays L.	Shoot DW	1.8	7.4	MS	Hassan et al., 1970b; Ravikovitch, 1973; Ravikovitch & Porath, 1967
Cowpea (forage)	Vigna unguiculata (L.) Walp.	Shoot DW	2.5	11	MS	West & Francois, 1982
Dallisgrass	Paspalum dilatatum Poir.	Shoot DW	-	-	MS*	Russell, 1976
Dhaincha	Sesbania bispinosa (Linn.) W.F. Wight [syn. Sesbania aculeata (Willd.) Poir]	Shoot DW	-	-	MT	Girdhar, 1987; Karadge & Chavan, 1983
Fescue, tall	Festuca elatior L.	Shoot DW	3.9	5.3	MT	Bower et al., 1970; Brown & Bernstein, 1953
Fescue, meadow	Festuca pratensis Huds.	Shoot DW	-	-	MT*	USSL Staff, 1954
Foxtail, meadow	Alopecurus pratensis L.	Shoot DW	1.5	9.6	MS	Brown & Bernstein, 1953
Glycine	Neonotonia wightii [syn. Glycine wightii or javanica]	Shoot DW	-	-	MS	Russell, 1976; Wilson, 1985
Gram, black or Urd bean	Vigna mungo (L.) Hepper [syn. Phaseolus mungo L.]	Shoot DW	-	-	S	Keating & Fisher, 1985
Grama, blue	Bouteloua gracilis (HBK) Lag. ex Steud.	Shoot DW	-	-	MS*	USSL Staff, 1954
Guinea grass	Panicum maximum Jacq.	Shoot DW	-	-	MT	Russell, 1976
Hardinggrass	Phalaris tuberosa L. var. stenoptera (Hack) A. S. Hitchc.	Shoot DW	4.6	7.6	MT	Brown & Bernstein, 1953
Kallargrass	Leptochloa fusca (L.) Kunth [syn. Diplachne fusca Beauv.]	Shoot DW	-	-	T	Sandhu et al., 1981
Lablab bean	Lablab purpureus (L.) Sweet [syn. Dolichos lablab L.]	Shoot DW	-	-	MS	Russell, 1976
Lovegrass^§§§	Eragrostis sp. N. M. Wolf	Shoot DW	2.0	8.4	MS	Bernstein & Ford, 1959b
Milkvetch, Cicer	Astragalus cicer L.	Shoot DW	-	-	MS*	USSL Staff, 1954
Millet, Foxtail	Setaria italica (L.) Beauvois	Dry matter	-	-	MS	Ravikovitch & Porath, 1967
Oatgrass, tall	Arrhenatherum elatius (L.) Beauvois ex J. Presl & K. Presl	Shoot DW	-	-	MS*	USSL Staff, 1954
Oats (forage)	Avena sativa L.	Straw DW	-	-	T	Mishra & Shitole, 1986; USSL^††
Orchardgrass	Dactylis glomerata L.	Shoot DW	1.5	6.2	MS	Brown & Bernstein, 1953; Wadleigh et al., 1951
Panicgrass, blue	Panicum antidotale Retz.	Shoot DW	-	-	MS*	Abd El-Rahman et al., 1972; Gausman et al., 1954
Pigeon pea	Cajanus cajan (L.) Huth [syn. C. indicus (K.) Spreng.]	Shoot DW	-	-	S	Subbaro et al., 1991; Keating & Fisher, 1985
Rape (forage)	Brassica napus L.		-	-	MT*	USSL Staff, 1954
Rescuegrass	Bromus unioloides HBK	Shoot DW	-	-	MT*	USSL Staff, 1954
Rhodesgrass	Chloris Gayana Kunth.	Shoot DW	-	-	MT	Abd El-Rahman et al, 1972; Gausman et al., 1954
Rye (forage)	Secale cereale L.	Shoot DW	7.6	4.9	T	Francois et al., 1989
Ryegrass, Italian	Lolium multiflorum Lam.	Shoot DW	-	-	MT*	Shimose, 1973
Ryegrass, perennial	Lolium perenne L.	Shoot DW	5.6	7.6	MT	Brown & Bernstein, 1953
Ryegrass, Wimmera	L. rigidum Gaud.		-	-	MT*	Malcolm & Smith, 1971
Saltgrass, desert	Distichlis spicta L. var. stricta (Torr.) Bettle	Shoot DW	-	-	T*	USSL Staff, 1954
Sesbania	Sesbania exaltata (Raf.) V.L. Cory	Shoot DW	2.3	7.0	MS	Bernstein, 1956
Sirato	Macroptilium atropurpureum (DC.) Urb.	Shoot DW	-	-	MS	Russell, 1976
Sphaerophysa	Sphaerophysa salsula (Pall.) DC	Shoot DW	2.2	7.0	MS	Francois & Bernstein, 1964a
Sudangrass	Sorghum sudanense (Piper) Stapf	Shoot DW	2.8	4.3	MT	Bower et al., 1970
Timothy	Phleum pratense L.	Shoot DW	-	-	MS*	Saini, 1972
Trefoil, big	Lotus pedunculatus Cav.	Shoot DW	2.3	19	MS	Ayars, 1948a, 1948b
Trefoil, narrowleaf birdsfoot	L. corniculatus var tenuifolium L.	Shoot DW	5.0	10	MT	Ayars, 1948a, 1948b
Trefoil, broadleaf birdsfoot	L. corniculatus L. var arvenis (Schkuhr) Ser. ex DC	Shoot DW	-	-	MS	Ayars, 1950b
Vetch, common	Vicia angustifolia L.	Shoot DW	3.0	11	MS	Ravikovitch & Porath, 1967
Wheat (forage)^†††	Triticum aestivum L.	Shoot DW	4.5	2.6	MT	Francois et al., 1986
Wheat, Durum (forage)	T. turgidum L. var durum Desf.	Shoot DW	2.1	2.5	MT	Francois et al., 1986
Wheatgrass, standard crested	Agropyron sibiricum (Willd.) Beauvois	Shoot DW	3.5	4.0	MT	Bernstein & Ford, 1958
Wheatgrass, fairway crested	A. cristatum (L.) Gaertn.	Shoot DW	7.5	6.9	T	Bernstein & Ford, 1958
Wheatgrass, intermediate	A. intermedium (Host) Beauvois	Shoot DW	-	-	MT*	Dewey, 1960
Wheatgrass, slender	A. trachycaulum (Link) Malte	Shoot DW	-	-	MT	McElgunn & Lawrence, 1973
Wheatgrass, tall	A. elongatum (Hort) Beauvois	Shoot DW	7.5	4.2	T	Bernstein & Ford, 1958
Wheatgrass, western	A. smithii Rydb.	Shoot DW	-	-	MT*	USSL Staff, 1954
Wildrye, Altai	Elymus angustus Trin.	Shoot DW	-	-	T	McElgunn & Lawrence, 1973
Wildrye, beardless	E. triticoides Buckl.	Shoot DW	2.7	6.0	MT	Brown & Bernstein, 1953
Wildrye, Canadian	E. canadensis L.	Shoot DW	-	-	MT*	USSL Staff, 1954
Wildrye, Russian	E. junceus Fisch.	Shoot DW	-	-	T	McElgunn & Lawrence, 1973
Vegetables and fruit crops
Artichoke	Cynara scolymus L.	Bud yield	6.1	11.5	MT	Francois, 1995
Asparagus	Asparagus officinalis L.	Spear yield	4.1	2.0	T	Francois, 1987
Bean, common	Phaseolus vulgaris L.	Seed yield	1.0	19	S	Bernstein & Ayars, 1951; Hoffman & Rawlins, 1970; Magistad et al., 1943; Nieman & Bernstein, 1959; Osawa, 1965
Bean, lima	P. lunatus L.	Seed yield	-	-	MT^*	Mahmoud et al., 1988
Bean, mung	Vigna radiata (L.) R. Wilcz.	Seed yield	1.8	20.7	S	Minhas et al., 1990
Cassava	Manihot esculenta Crantz	Tuber yield	-	-	MS	Anonymous, 1976; Hawker & Smith, 1982
Beet, red^##	Beta vulgaris L.	Storage root	4.0	9.0	MT	Bernstein et al., 1974; Hoffman & Rawlins, 1971; Magistad et al., 1943
Broccoli	Brassica oleracea L. (Botrytis Group)	Shoot FW	2.8	9.2	MS	Bernstein & Ayars, 1949a; Bernstein et al., 1974
Brussels sprouts	B. oleracea L. (Gemmifera Group)		-	-	MS*
Cabbage	B. oleracea L. (Capitata Group)	Head FW	1.8	9.7	MS	Bernstein & Ayars, 1949a; Bernstein et al., 1974; Osawa, 1965
Carrot	Daucus carota L.	Storage root	1.0	14	S	Bernstein & Ayars, 1953a; Bernstein et al., 1974; Lagerwerff & Holland, 1960; Magistad et al., 1943; Osawa, 1965
Cauliflower	Brassica oleracea L. (Botrytis Group)		-	-	MS*
Celery	Apium graveolens L. var dulce (Mill.) Pers.	Petiole FW	1.8	6.2	MS	Francois & West, 1982
Corn, sweet	Zea mays L.	Ear FW	1.7	12	MS	Bernstein & Ayars, 1949b
Cowpea	Vigna unguiculata (L.) Walp.	Seed yield	4.9	12	MT	West & Francois, 1982
Cucumber	Cucumis sativus L.	Fruit yield	2.5	13	MS	Osawa, 1965; Ploegman & Bierhuizen, 1970
Eggplant	Solanum melongena L. var esculentum Nees.	Fruit yield	1.1	6.9	MS	Heuer et al., 1986
Garlic	Allium sativum L.	Bulb yield	3.9	14.3	MS	Francois, 1994b
Gram, black or Urd bean	Vigna mungo (L.) Hepper [syn. Phaseolus mungo L.]	Shoot DW	-	-	S	Keating & Fisher, 1985
Kale	Brassica oleracea L. (Acephala Group)		-	-	MS*	Malcolm & Smith, 1971
Kohlrabi	Brassica oleracea L. (Gongylodes Group)		-	-	MS*
Lettuce	Lactuca sativa L.	Top FW	1.3	13	MS	Ayars et al., 1951; Bernstein et al., 1974; Osawa, 1965
Muskmelon	Cucumis melo L. (Reticulatus Group)	Fruit yield	1.0	8.4	MS	Mangal et al., 1988; Shannon & Francois, 1978
Okra	Abelmoschus esculentus (L.) Moench	Pod yield	-	-	MS	Masih et al., 1978; Paliwal & Maliwal, 1972
Onion (bulb)	Allium cepa L.	Bulb yield	1.2	16	S	Bernstein & Ayars, 1953b; Bernstein et al., 1974; Hoffman & Rawlins, 1971; Osawa, 1965
Onion (seed)		Seed yield	1.0	8.0	MS	Mangal et al., 1989
Parsnip	Pastinaca sativa L.		-	-	S*	Malcolm & Smith, 1971
Pea	Pisum sativum L.	Seed FW	3.4	10.6	MS	Cerda et al., 1982
Pepper	Capsicum annuum L.	Fruit yield	1.5	14	MS	Bernstein, 1954; Osawa, 1965; USSL^††
Pigeon pea	Cajanus cajan (L.) Huth [syn. C. indicus (K.) Spreng.]	Shoot DW	-	-	S	Keating & Fisher, 1985; Subbarao et al., 1991
Potato	Solanum tuberosum L.	Tuber yield	1.7	12	MS	Bernstein et al., 1951
Pumpkin	Cucurbita pepo L. var Pepo		-	-	MS*
Purslane	Portulaca oleracea L.	Shoot FW	6.3	9.6	MT	Kumamoto et al., 1992
Radish	Raphanus sativus L.	Storage root	1.2	13	MS	Hoffman & Rawlins, 1971; Osawa, 1965
Spinach	Spinacia oleracea L.	Top FW	2.0	7.6	MS	Langdale et al., 1971; Osawa, 1965
Squash, scallop	Cucurbita pepo L. var melopepo (L.) Alef.	Fruit yield	3.2	16	MS	Francois, 1985
Squash, zucchini	C. pepo L. var melopepo (L.) Alef.	Fruit yield	4.9	10.5	MT	Francois, 1985; Graifenberg et al., 1996
Strawberry	Fragaria x Ananassa Duch.	Fruit yield	1.0	33	S	Ehlig & Bernstein, 1958; Osawa, 1965
Sweet potato	Ipomoea batatas (L.) Lam.	Fleshy root	1.5	11	MS	Greig & Smith, 1962; USSL^††
Tepary bean	Phaseolus acutifolius Gray		-	-	MS^*	Goertz & Coons, 1991; Hendry, 1918; Perez & Minguez, 1985
Tomato	Lycopersicon lycopersicum (L.) Karst. ex Farw. [syn. Lycopersicon esculentum Mill.]	Fruit yield	2.5	9.9	MS	Bierhuizen & Ploeman, 1967; Hayward & Long, 1943; Lyon, 1941; Shalhevet & Yaron, 1973
Tomato, cherry	L. lycopersicum var. Cerasiforme (Dunal) Alef.	Fruit yield	1.7	9.1	MS	Caro et al., 1991
Turnip Turnip (greens)	Brassica rapa L. (Rapifera Group)	Storage root Top FW	0.9 3.3	9.0 4.3	MS MT	Francois, 1984
Watermelon	Citrullus lanatus (Thunb.) Matsum. & Nakai	Fruit yield	-	-	MS*	de Forges, 1970
Winged bean	Psophocarpus tetragonolobus L. DC	Shoot DW	-	-	MT	Weil & Khalis, 1986

These data serve only as a guideline to relative tolerances among crops. Absolute tolerances vary, depending upon climate, soil conditions, and cultural practices.

^‡ Botanical and common names follow the convention of Hortus Third (Liberty Hyde Bailey Hortorium Staff, 1976) where possible.

^§ In gypsiferous soils, plants will tolerate an EC_e about 2 dS/m higher than indicated.

^¶ Ratings are defined by the boundaries in Figure A1.1. Ratings with an * are estimates.

^# Less tolerant during seedling stage, EC_e at this stage should not exceed 4 or 5 dS/m.

^†† Unpublished U. S. Salinity Laboratory data.

^‡‡ Grain and forage yields of DeKalb XL-75 grown on an organic muck soil decreased about 26 percent per dS/m above a threshold of 1.9 dS/m (Hoffman et al., 1983).

^§§ Because paddy rice is grown under flooded conditions, values refer to the electrical conductivity of the soil water while the plants are submerged. Less tolerant during seedling stage.

^¶¶ Sesame cultivars, Sesaco 7 and 8, may be more tolerant than indicated by the S rating.

^## Sensitive during germination and emergence, EC_e should not exceed 3 dS/m.

^††† Data from one cultivar, "Probred".

^‡‡‡ Average of several varieties. Suwannee and Coastal are about 20 percent more tolerant, and common and Greenfield are about

20 percent less tolerant than the average.

^§§§ Average for Boer, Wilman, Sand and Weeping cultivars. Lehmann seems about 50 percent more tolerant.

Table A1.2. Salt tolerance of woody crops^†

Crop			Salt Tolerance Parameters
Common name	Botanical name^‡	Tolerance based on	*Threshold^§ (EC_e)*	Slope	Rating^¶	References
Common name	Botanical name^‡	Tolerance based on	dS/m	% per dS/m		References
Almond	Prunus duclis (Mill.) D.A. Webb	Shoot growth	1.5	19	S	Bernstein et al., 1956; Brown et al., 1953
Apple	Malus sylvestris Mill.		-	-	S	Ivanov, 1970
Apricot	Prunus armeniaca L.	Shoot growth	1.6	24	S	Bernstein et al., 1956
Avocado	Persea americana Mill.	Shoot growth	-	-	S	Ayars, 1950a; Haas, 1950
Banana	Musa acuminata Colla	Fruit yield	-	-	S	Israeli et al., 1986
Blackberry	Rubus macropetalus Doug. ex Hook	Fruit yield	1.5	22	S	Ehlig, 1964
Boysenberry	Rubus ursinus Cham. and Schlechtend	Fruit yield	1.5	22	S	Ehlig, 1964
Castor seed	Ricinus communis L.		-	-	MS^*	USSL Staff, 1954
Cherimoya	Annona cherimola Mill.	Foliar injury	-	-	S	Cooper, Cowley & Shull, 1952
Cherry, sweet	Prunus avium L.	Foliar injury	-	-	S^*	Beeftink, 1955
Cherry, sand	Prunus besseyi L., H. Baley	Foliar injury, stem growth	-	-	S^*	Zhemchuzhnikov, 1946
Coconut	Cocos nucifera L.		-	-	MT^*	Kulkarni et al., 1973
Currant	Ribes sp. L.	Foliar injury, stem growth	-	-	S^*	Beeftink, 1955; Zhemchuzhnikov, 1946
Date-palm	Phoenix dactylifera L.	Fruit yield	4.0	3.6	T	Furr & Armstrong, 1962; Furr & Ream, 1968; Furr et al., 1966
Fig	Ficus carica L.	Plant DW	-	-	MT^*	Patil & Patil, 1983a; USSL Staff, 1954
Gooseberry	Ribes sp. L.		-	-	S^*	Beeftink, 1955
Grape	Vitis vinifera L.	Shoot growth	1.5	9.6	MS	Groot Obbink & Alexander, 1973; Nauriyal & Gupta, 1967; Taha et al., 1972
Grapefruit	Citrus x paradisi Macfady.	Fruit yield	1.2	13.5	S	Bielorai et al., 1978
Guava	Psidium guajava L.	Shoot & root growth	4.7	9.8	MT	Patil et al., 1984
Guayule	Parthenium argentatum A. Gray	Shoot DW Rubber yield	8.7 7.8	11.6 10.8	T T	Maas et al., 1988
Jambolan plum	Syzygium cumini L.	Shoot growth	-	-	MT	Patil & Patil, 1983b
Jojoba	Simmondsia chinensis (Link) C. K. Schneid	Shoot growth	-	-	T	Tal et al., 1979; Yermanos et al., 1967
Jujube, Indian	Ziziphus mauritiana Lam.	Fruit yield	-	-	MT	Hooda et al., 1990
Lemon	Citrus limon (L.) Burm. f.	Fruit yield	1.5	12.8	S	Cerda et al., 1990
Lime	Citrus aurantiifolia (Christm.) Swingle		-	-	S^*
Loquat	Eriobotrya japonica (Thunb). Lindl.	Foliar injury	-	-	S^*	Cooper & Link, 1953; Malcolm & Smith, 1971
Macadamia	Macadamia integrifolia Maiden & Betche	Seedling growth	-	-	MS^*	Hue & McCall, 1989
Mandarin orange; tangerine	Citrus reticulata Blanco	Shoot growth	-	-	S^*	Minessy et al., 1974
Mango	Mangifera indica L.	Foliar injury	-	-	S	Cooper et al., 1952
Natal plum	Carissa grandiflora (E.H. Mey.) A. DC.	Shoot growth	-	-	T	Bernstein et al., 1972
Olive	Olea europaea L.	Seedling growth, Fruit yield	-	-	MT	Bidner-Barhava & Ramati, 1967; Taha et al., 1972
Orange	Citrus sinensis (L.) Osbeck	Fruit yield	1.3	13.1	S	Bielorai et al., 1988; Bingham et al., 1974; Dasberg et al., 1991; Harding et al., 1958
Papaya	Carica papaya L.	Seedling growth, foliar injury	-	-	MS	Kottenmeier et al., 1983; Makhija & Jindal, 1983
Passion fruit	Passiflora edulis Sims.		-	-	S^*	Malcolm & Smith, 1971
Peach	Prunus persica (L.) Batsch	Shoot growth, Fruit yield	1.7	21	S	Bernstein et al., 1956; Brown, Wadleigh, Hayward, 1953; Hayward et al., 1946
Pear	Pyrus communis L.		-	-	S^*	USSL Staff, 1954
Pecan	Carya illinoinensis (Wangenh.) C. Koch	Nut yield, trunk growth	-	-	MS	Miyamoto et al., 1986
Persimmon	Diospyros virginiana L.		-	-	S^*	Malcolm & Smith, 1971
Pineapple	Ananas comosus (L.) Merrill	Shoot DW	-	-	MT	Wambiji & El-Swaify, 1974
Pistachio	Pistacia vera L.	Shoot growth	-	-	MS	Sepaskhah & Maftoun, 1988; Picchioni et al., 1990
Plum; Prune	Prunus domestica L.	Fruit yield	2.6	31	MS	Hoffman et al., 1989
Pomegranate	Punica granatum L.	Shoot growth	-	-	MS	Patil & Patil, 1982
Popinac, white	Leucaena leucocephala (Lam.) de Wit [syn. Leucaena glauca Benth.]	Shoot DW	-	-	MS	Gorham et al., 1988; Hansen & Munns, 1988
Pummelo	Citrus maxima (Burm.)	Foliar injury	-	-	S^*	Furr & Ream, 1969
Raspberry	Rubus idaeus L.	Fruit yield	-	-	S	Ehlig, 1964
Rose apple	Syzygium jambos (L.) Alston	Foliar injury	-	-	S^*	Cooper & Gorton, 1951
Sapote, white	Casimiroa edulis Llave	Foliar injury	-	-	S^*	Cooper et al., 1952
Scarlet wisteria	Sesbania grandiflora	Shoot DW	-	-	MT	Chavan & Karadge, 1986
Tamarugo	Prosopis tamarugo Phil.	Observation	-	-	T	National Academy Sciences, 1975
Walnut	Juglans spp.	Foliar injury	-	-	S^*	Beeftink, 1955

^† These data serve only as a guideline to relative tolerances among crops. Absolute tolerances vary, depending upon climate, soil conditions, and cultural practices. The data are applicable when rootstocks are used that do not accumulate Na⁺ or Cl^- rapidly or when these ions do not predominate in the soil.

^‡ Botanical and common names follow the convention of Hortus Third (Liberty Hyde Bailey Hortorium Staff, 1976) where possible.

^§ In gypsiferous soils, plants will tolerate an EC_e about 2 dS/m higher than indicated.

^¶ Ratings are defined by the boundaries in Figure A1.1. Ratings with an * are estimates.

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