CHAPTER 43. LEGUMINOSAE

The Leguminosae comprise about 18000 species of herbaceous plants, shrubs, trees and climbers within almost 700 genera. The Leguminosae are divided into three tribes, viz: Caesalpinoideae Mimosoideae, and Papilionoideae. Although several species within Caesalpinoideae and Mimosoideae provide useful products, the Papilionoideae (also described as Fabaceae, Faboideae, Lotoideae, or Papilionatae) is the most useful tribe to man and provides a very large number of important crop plants. The fruit is a pod, often a legume. Rarely the fruit may be single-seeded. Seed storage behaviour is orthodox.

SEED DORMANCY AND GERMINATION

With few exceptions, dormancy per se (that is innate or secondary dormancy as defined in Chapter 5, Volume I) is a comparatively slight problem in seed germination tests of Leguminosae accessions. The major problem preventing or delaying germination in such tests is that of hardseededness (see Chapter 4, Volume I).

Because dormancy is not a major problem, the layout of this chapter is slightly different from that of other chapters in this manual. No detailed information is provided for particular genera, with the exception of brief comments on a few genera where dormancy may be a problem in certain test regimes. Instead information on suitable germination test procedures and dormancy-breaking treatments (but see comment below) is summarised in tabular form. It will be seen that the majority of treatments listed as dormancy-breaking treatments are in fact treatments to remove hardseededness. This type of treatment is described in detail in Chapter 7, Volume I.

The structure of the testa (seed coat, see Chapter 3, Volume I) which may render a seed impermeable (hard) differs between the three tribes. Seeds of members of the Papilionoideae have a region of the testa described as the strophiole through which the imbibition of initially hard seeds may occur if treated appropriately - see Chapter 7, Volume I, for more details of testa structure in papilionate legumes. Percussion (shaking) treatments create a gap (the strophiolar cleft) in the impermeable testa through which moisture can enter seeds of species within this tribe. In contrast most authorities consider that seeds of the Caesalpinoideae and the Mimosoideae do not possess a strophiolar region; and accordingly percussion treatments are generally ineffective. In the Caesalpinoideae an initial treatment in absolute alcohol (see Chapter 7, Volume I) can be effective in rendering the seeds permeable, but this treatment is not so effective for seeds of either the Mimosoideae or the Papilionoideae. Finally, filing or chipping the testa is generally effective for seeds of all three tribes.

Thus the treatment which might be applied to render hardseeded accessions permeable may be dependent upon the tribe to which it belongs. For this reason we have divided the summary of germination test procedures and dormancy-breaking treatments in this chapter according to tribe - Caesalpinoideae in Table 43.1, Mimosoideae in Table 43.2, and Papilionoideae in Table 43.3.

A further problem in seed germination tests of the Leguminosae is that of imbition injury (see Chapter 4, Volume I). Imbibition injury is damage caused by very rapid imbibition of water by very dry seeds when they are set to germinate. It can be avoided by humidifying (also described as conditioning) the dry seeds until their moisture content is around 18% or more. A method of humidifying seeds is described in Chapter 7, Volume I. If the seeds are hard a treatment to overcome hardseededness will be required before the humidification treatment. It is expected that a substantial proportion of Leguminosae accessions would benefit from a humidification treatment before the germination test.

For species not listed in Tables 43.1 to 43.3 and for accessions where the information tabulated is inadequate, the algorithm below may be helpful in devising a suitable germination test procedure. Note that the algorithm includes an obligatory treatment to overcome hardseededness and also an optional conditioning (humidification) treatment.

RBG Kew Wakehurst Place algorithm

The regimes tested in the first and second steps of the algorithm are dependent upon the accession's origin. All seeds to be tested for germination are chipped (part of the testa is removed) beforehand.

The first step of the algorithm is to test the chipped seeds of accessions of temperate origin at constant temperatures of 11°C and 16°C with light applied for 12h/d, or to test the chipped seeds of accessions of tropical origin at constant temperatures of 21°C and 26°C with light applied for 12h/d. If an accession's origin is unknown or doubtful then test chipped seeds at all four constant temperature regimes. If the results show a trend of germination with respect to temperature then test at more extreme constant temperatures. For example, if a temperate accession showed significantly greater germination at 11°C than at 16°C then test a further sample of chipped seeds at 6°C.

If the regimes applied in step one have not resulted in full germination then the second step of the algorithm is to test chipped seeds of accessions of temperate origin at an alternating temperature of 23°/9°C (12h/12h) with light applied for 12h/d during the period spent at the upper temperature of each cycle, and to test chipped seeds of accessions of tropical origin at an alternating temperature of 33°/19°C (12h/12h) with light applied for 12h/d during the period spent at the upper temperature of each cycle. If an accession's origin is unknown or doubtful then test chipped seeds in both alternating temperature regimes.

If the second step of the algorithm does not result in full germination then the third step is to condition (humidify) the chipped seeds at 21°C and 100% relative humidity (i.e. over water) for 4d and then test in the temperature regime determined to be most successful from the results of steps one and two.

If the third step of the algorithm does not result in full germination then the fourth step is to experiment with the conditioning treatment by humidifying samples of the chipped seeds for more and less than 4d at 21°C with 100% relative humidity before testing in the temperature regime determined to be most successful from the results of steps one and two.

If full germination has not been promoted, the fifth step of the algorithm is to estimate viability using a tetrazolium test (see Chapter 11, Volume I). Note that chipping and humidification of the seeds prior to this test are likely to be required.

If the result of the tetrazolium test indicates that the failure to achieve full germination is due to the presence of dead seeds and that one of the above regimes promoted the germination of all, or almost all, the viable seeds, then this regime is used for all subsequent germination tests. If, however, the result of the tetrazolium test indicates that dormancy has not been broken by the regimes applied so far in the algorithm, then experiment with modifications to the above regimes. Clues to possible satisfactory dormancy-breaking treatments and promotory germination test environments can be obtained from Tables 43.1 to 43.3 and the next section.

Innate dormancy?

In addition to hardseededness some legume accessions may exhibit innate seed dormancy. A clue as to which species are more likely to exhibit innate seed dormancy can be gained from Tables 43.1 to 43.3: if the additional directions include treatments which will not overcome hardseededness (e.g. pre-chill, or ethephon) then it is likely that some accessions may exhibit innate seed dormancy. The two most important genera in which innate seed dormancy is common are Arachis (groundnut) and Trifolium (clover). Other genera in which innate seed dormancy may be observed include Medicago and Trigonella.

In dormant seeds of Arachis hypogaea L. 100% oxygen in the germination test environment or an after-ripening treatment promote seed germination (11), whereas piercing the seed coat does not (11). Thus the problem of lack of germination in such cases is not hardseededness but dormancy. Of course, however, it is possible for dormant accessions to also be hardseeded (sometimes described as double dormancy, see Chapter 5, Volume I).

In general the lower the temperature of the germination test the less likely is seed dormancy to prevent, or delay germination. For example, in many lots of Trifolium subterraneum L. a greater proportion of dormant seeds germinate at 15°C than at 20°C (7,13) and a greater proportion germinate at 20°C than at 30°C (5). Similarly in several species pre-chill treatments promote the germination of the dormant seeds, e.g. in red clover (Trifolium pratense L.) (10).

Consequently the first suggestion to promote the germination of dormant legume seeds is to pre-chill (7 or 8d at 3° to 5°C) or test at a comparatively low temperature (10° to 15°C). Whilst the latter suggestion appears to be satisfactory in most cases, e.g. lupin (Lupinus albus L.) (10), there may be some exceptions, e.g. some lots of Trifolium pratense L. (10) and Trifolium subterraneum (13). The use of the algorithm, and in particular step one, would thus be advantageous since a trend of germination with respect to constant temperatures should be apparent from the initial results of step one and gene bank staff can act accordingly (see the algorithm).

A carbon dioxide enriched atmosphere can also promote the germination of dormant legume seeds, e.g. in Trifolium subterraneum L. (1-3,9,13), and Medicago hispida Gaertn., Medicago tribuloides Desr., Trifolium arvense L., Trifolium cherleri L., Trifolium glomeratum L., Trifolium hirtum All. and Trigonella ornithopodoides (L.) DC. (3,6). Promotion of germination is normally observed at concentrations between about 0.3 and 4.5% (by volume) (1,3) with inhibition of germination at CO₂ concentrations above about 5 to 10% (1,3). The beneficial effect of carbon dioxide is generally more enhanced the lower the germination test temperature (2,9) and also where the testas have been removed (3). In general treatment with carbon dioxide is more promotory than pre-chilling, e.g. compared with three days at 3°-5°C (6).

Although it is possible to artificially increase carbon dioxide concentration in germination tests, carrying out the tests in sealed or unsealed polyethylene envelopes is generally sufficient to overcome dormancy, e.g. in Trifolium hybridum L., Trifolium pratense L. and Trifolium repens L. (12). Consequently it is suggested that the seeds be tested for germination in this way. Similarly seeds of dormant accessions destined for field sowings can be imbibed in a sealed polyethylene bag for 24 hours prior to sowing out.

Ethylene (applied in various forms) has been shown to promote the germination of dormant seeds of several legumes. For example, in Trifolium subterraneum L. by co-application of 1-100 ppm ethephon (also known as ethrel and as 2-chloroethylphosphonic acid or CEPA) (5), in Medicago truncatula Gaertn. by co-application of 1-100 ppm ethephon (5), and in Arachis hypogaea L. by co-application of 5 x 10^-4 M ethephon (8).

Thus co-application of ethephon (use concentrations within the ranges provided above) in germination tests is another satisfactory potential dormancy-breaking treatment. Ethephon has also been successfully applied to promote seed germination in field sowings of Arachis hypogaea L., and the following treatments may be applicable to other species also. In the dry powder method 1 kg of seeds together with 2 g of a combined fungicide/insecticide and 0.02 g of ethephon are shaken in a polyethylene bag or mixed in a drum mixer (4). In the wet method a single layer of seeds is sprayed with a solution of 0.033 M ethephon (4). In both cases the seeds should be sown immediately after the treatment (4). These treatments may be useful when regenerating or multiplying dormant seed accessions of the Leguminosae.

Finally it is worth noting that several other growth regulators may also promote the germination of dormant legume seeds. For example, in Arachis hypogaea L. co-application of either 10^-4 M kinetin or 10^-4 M benzylaminopurine have resulted in a considerable promotion of germination (8).

References

1. Ballard, L.A.T. (1958). Studies of dormancy in the seeds of subterranean clover (Trifolium subterraneum L.). I. Breaking of dormancy by carbon dioxide and by activated carbon. Australian Journal of Biological Sciences, 11, 246-260.

2. Ballard, L.A.T. (1961). Studies of dormancy in the seeds of subterranean clover (Trifolium subterraneum L.). II. The interaction of time, temperature, and carbon dioxide during passage out of dormancy. Australian Journal of Biological Sciences, 14, 173-186.

3. Ballard, L.A.T. (1967). Effect of carbon dioxide on the germination of leguminous seeds. In Physiologie, Okologie und Biochemie der Keimung (ed. H. Borriss), pp. 209-219. Ernst-Moritz-Arndt-Universitat, Greifswald.

4. Gautreau, J. (1980). A new method of ending groundnut dormancy by using ethephon. Oléagineux, 35, 355.

5. Globerson, D. (1977). Germination and dormancy breaking by ethephon in mature and immature seeds of Medicago truncatula (Medic) and Trifolium subterraneum (Clover). Australian Journal of Agricultural Research, 29, 43-49.

6. Grant Lipp, A.E. and Ballard, L.A.T. (1959). The breaking of dormancy of some legumes by carbon dioxide. Australian Journal of Agricultural Research, 10, 495-499.

7. Johnson, M.E.H. and Tattersfield, J.G. (1970). Germination conditions for Trifolium subterraneum L. Proceedings of the International Seed Testing Association, 35, 343-347.

8. Ketring, D.L. and Morgan, P.W. (1971). Physiology of oilseeds. II. Dormancy release in Virginia-type peanut seeds by plant growth regulators. Plant Physiology, 47, 488-492.

9. Morley, F.H.W. (1958). The inheritance and ecological significance of seed dormancy in subterranean clover (Trifolium subterraneum L.). Australian Journal of Biological Sciences, II, 261-274.

10. Nakamura, S. (1962). Germination of legume seeds. Proceedings of the International Seed Testing Association, 27, 694-709.

11. Sharir, A. (1978). Some factors affecting dormancy breaking in peanut seeds. Seed Science and Technology, 6, 655-660.

12. Thomson, J.R. (1965). Breaking dormancy in germination tests of Trifolium spp. Proceedings of the International Seed Testing Association, 30, 905-909.

13. Young, J.A., Kay, B.L. and Evans, R.A. (1970). Germination of cultivars of Trifolium subterraneum L. Agronomy Journal, 62, 638-641.

TABLE 43.1 Summary of germination test recommendations for species within the Caesalpinoideae tribe of the Leguminosae

Species and Authority	Substrate	Temperature	Duration	Additional directions	Source
Ceratonia siliqua L.			30d	scarify, abrade with sand, or file or nick seed coat	Riley
Cercis canadensis L.		20°/30°C		scarify, then pre-chill, 5-8w	G&R
Cercis siliquastrum L.		20°/30°C		scarify	G&R
Gleditsia triacanthos L.	TP	20°C	21d	pierce, chip or file cotyledon end of testa, then pre-soak, 6h, or scarify, concentrated	ISTA
				sulphuric acid, then wash
	BP	20°C	21d	clip, file testa, or scarify, concentrated sulphuric acid, 1h	AOSA
Tamarindus Indica L.			21d	pre-soak, 24h	Riley

TABLE 43.2 Summary of germination test recommendations for species within the Mimosoideae tribe of the Leguminosae

Species and Authority	Substrate	Temperature	Duration	Additional directions	Source
Acacia spp.	TP	20°/30°C; 20°C	21d	pierce, chip or file cotyledon end of testa, then pre-soak, 3h, or scarify,	ISTA
				concentrated sulphuric acid, 1h, then wash
Inga paterno			21d	pre-soak, 24h	Riley
Leucaena leucocephala (Lam.) de Wit	TP; BP	25°C	10d		ISTA
		26°C	28d	pre-soak, hot water, 80°C, 2-5 min, or 100°C, 2-5s	Oakes
	BP		30d	pre-soak, boiling water, then allow to cool, 20 min	O&W
Mimosa pudica L.	TP; BP	20°/30°C; 20°C	28d	pre-soak, 24h	ISTA
	BP	20°/30°C	21d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA

TABLE 43.3 Summary of germination test recommendations for species within the Papilionoideae tribe of the Leguminosae

Species and Authority	Substrate	Temperature	Duration	Additional directions	Source
Amorpha fruticosa L.				percussion	Atwater
Anthyllis vulneraria L.	TP; BP	20°C	10d	pre-chill	ISTA
Arachis hypogaea L.	BP; S	20°/30°C; 25°C	10d	remove shells, pre-dry (40°C)	ISTA
	BP; S	20°/30°C; 25°C	10d	remove shells, or ethephon, or ethylene	AOSA
Astragalus cicer L.				scarify, mechanical	Atwater
Cajanus cajan (L.) Millsp.	BP; S	20°/30°C; 25°C	10d		ISTA
Calopogonium mucunoides Desv.	TP	25°C; 20°C	10d		ISTA
Caragana arborescens Lam.	TP	20°/30°C	21d	pierce, chip or file cotyledon end of testa, then pre-soak, 3h	ISTA
Centrosema pubescens Benth.	TP	20°/35°C	10d		ISTA
				scarify, concentrated sulphuric acid, 15 min	Atwater
Cicer arietinum L.	BP; S	20°/30°C; 20°C	8d		ISTA
	BP; S	20°/30°C	7d		AOSA
Colutea istria L.				percussion, shake 6h, or scarify, concentrated sulphuric acid, 30 min	Atwater
Coronilla varia L.	TP; BP	20°C	14d		ISTA
	BP; S	20°C	14d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
				scarify, concentrated sulphuric acid, 30 min	Atwater
Crotalaria intermedia Kotschy.	BP	20°/30°C	10d		ISTA
	BP; S	20°/30°C	10d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Crotalaria juncea L.	BP; S	20°/30°C	10d		ISTA
	BP; S	20°/30°C	10d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Crotalaria lanceolata E. Mey.	BP	20°/30°C	10d		ISTA
	BP; S	20°/30°C	10d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Crotalaria mucronata Desv.	BP	20°/30°C	10d		ISTA
Crotalaria pallida Ait.	BP; S	20°/30°C	10d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Crotalaria spectabilis Roth	BP	20°/30°C	10d		ISTA
	BP; S	20°/30°C	10d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Cyamopsis tetragonoloba (L.) Taub.	BP	20°/30°C	14d		ISTA
	BP; S	20°/30°C; 30°C	14d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Cytisus monspessulanus L.		20°/30°C	28d	clip hard seeds	Atwater
Cytisus scoparius (L.) Link	TP	20°/30°C	28d	pierce, chip or file cotyledon end of testa, then pre-soak, 3h	ISTA
				scarify, boiling water, concentrated sulphuric acid, or mechanical	G&R
Desmodium intortum (Mill.) Urban	TP	20°/30°C	10d	scarify, concentrated sulphuric acid, extend test 7d if hard seeds have begun to imbibe	ISTA
Desmodium tortuosum (Sweet) DC.	BP	30°C	28d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Desmodium uncinatum (Jacq.) DC.	TP	20°/30°C	10d	scarify, concentrated sulphuric acid, extend test 7d if hard seeds have begun to imbibe	ISTA
Dolichos lablab L.	BP; S	20°/30°C; 25°C	10d		ISTA
		20°/30°C	21d		Atwater
Dolichos lignosis L.		20°/30°C	21d		Atwater
Galega officinalis L.	TP; BP	20°/30°C; 20°C	14d	imbibe 10d, then pre-soak, 24h	ISTA
Glycine javanica L.	TP	20°/30°C; 10°/35°C	10d		ISTA
Glycine max (L.) Merr.	BP; S	20°/30°C; 25°C	8d		ISTA
	BP; S	20°/30°C; 25°C	8d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Glycyrrhiza glabra L.	TP	20°/30°C	21d	scarify, concentrated sulphuric acid	Heit
Hedysarum coronarium L.	TP; BP	20°/30°C; 20°C	14d		ISTA
Indigofera hirsuta L.	BP	20°/30°C	14d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Lablab purpureus (L.) Sweet	BP	20°/30°C	12d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Laburnum alpinum (Mill.) Bercht. & J.S. Presl.	TP	20°/30°C	21d	pierce, chip or file cotyledon end of testa, then pre-soak, 3h, or scarify,	ISTA
				concentrated sulphuric acid, 1h, then wash
Laburnum anagyroides Medic.	TP	20°/30°C	21d	pierce, chip or file cotyledon end of testa, then pre-soak, 3h, or scarify,	ISTA
				concentrated sulphuric acid, 1h, then wash
Lathyrus cicera L.	S	20°C	10d		ISTA
Lathyrus hirsutus L.	BP; S	20°C	14d		ISTA
	BP	20°C	14d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Lathyrus latifolius L.	BP; S; TP	20°C	21d	pre-chill, pierce, chip or file cotyledon end of testa	ISTA
	BP	20°C	30d	slow to germinate, continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
		20°C	21d	clip hard seeds	Atwater
Lathyrus odoratus L.	BP; S; TP	20°C	14d	pre-chill	ISTA
	BP; S	20°C	14d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
		20°C	14d		Atwater
Lathyrus sativus L.	BP; S	20°C	14d		ISTA
Lathyrus sylvestris L.	BP	15°/25°C; 20°C	28d	continue test at 15°/25°C for 14d or 20°C for 10d if (reversible) hard seeds have begun to imbibe	AOSA
Lens culinaris Medic.	BP; S	20°C	10d	pre-chill	ISTA
	BP	20°C	10d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Lespedeza cuneata (Dumont) Don	BP; S	20°/35°C	21d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Lespedeza hedysaroides (Pall.) Kitagawa	BP	20°/35°C	21d		ISTA
	BP; S	20°/35°C	21d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Lespedeza stipulacea Maxim.	BP	20°/35°C	14d		ISTA
	BP; S	20°/35°C	14d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Lespedeza striata (Murr.) Hook. & Arn.	BP	20°/35°C	14d		ISTA
	BP; S	20°/35°C	14d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Lotononis bainesii Baker	TP	20°/30°C	21d		ISTA
Lotus corniculatus L.	TP; BP	20°/30°C; 20°C	12d	pre-chill	ISTA
	BP	20°C	12d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Lotus scoparius (Nutt.) Ottley		20°C	21d	pre-soak, hot water	Atwater
Lotus uliginosus Schk.	TP; BP	20°/30°C; 20°C	12d	pre-chill	ISTA
	BP	20°C	12d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Lupinus albus L.	BP; S	20°C	10d	pre-chill	ISTA
	BP	20°C	10d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Lupinus angustifolius L.	BP; S	20°C	10d	pre-chill	ISTA
	BP; S	20°C	10d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Lupinus hartwegii Lindl.	BP; S; TP	20°/30°C; 20°C	21d	pierce, chip or file cotyledon end of testa, or pre-chill	ISTA
Lupinus hybridus	BP; S; TP	20°/30°C; 20°C	21d	pierce, chip or file cotyledon end of testa, or pre-chill	ISTA
Lupinus luteus L.	BP; S	20°C	21d	pre-chill	ISTA
	BP	20°C	10d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Lupinus nanus Dougl.	BP; S; TP	20°/30°C; 20°C	21d	pierce, chip or file cotyledon end of testa, or pre-chill	ISTA
		20°C	14d	clip hard seeds	Atwater
Lupinus polyphyllus Lindl.	BP; S; TP	20°/30°C; 20°C	21d	pierce, chip or file cotyledon end of testa, or pre-chill	ISTA
	BP	20°/30°C	30d	slow to germinate, continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Lupinus subcarnosus Hook.	BP	20°/30°C	21d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Lupinus succulentus Dougl.		20°C	50d	pre-soak, 7h, 100°C, then cool	Atwater
Lupinus texensis Hook.		20°C	14d	clip hard seeds	Atwater
Lupinus spp.	BP	20°/30°C	18d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Macroptilium atropurpureum (DC.) Urban.	TP	25°C	10d	scarify, concentrated sulphuric acid, extend test 7d if hard seeds have begun to imbibe	ISTA
Macroptilium axillare (E. Mey.) Verdc.	BP	25°C	10d	scarify, concentrated sulphuric acid, extend test 7d if hard seeds have begun to imbibe	ISTA
Macroptilium lathyroides (L.) Urban	TP	25°C	10d	scarify, concentrated sulphuric acid, extend test 7d if hard seeds have begun to imbibe	ISTA
Medicago arabica (L.) Huds.	TP; BP	20°C	14d		ISTA
	BP	20°C	14d	remove seeds from bur, continue test for a further 5d if (reversible) hard seeds have begun to imbibe,	AOSA
				test at 17°-18°C
Medicago littoralis Rohde ex Lois	TP	20°C	14d		ISTA
Medicago lupulina L.	TP; BP	20°C	10d	pre-chill	ISTA
	BP; S	20°C	7d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe, test at 17°-18°C	AOSA
Medicago orbicularis (L.) Bartal	TP; BP	20°C	10d	pre-chill	ISTA
	BP	20°C	10d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe, test at 15°C,	AOSA
				or 17°-18°C
Medicago polymorpha L.	TP; BP	20°C	14d		ISTA
	BP	20°C	14d	remove seeds from bur, continue test for a further 5d if (reversible) hard seeds have begun to imbibe,	AOSA
				test at 17°-18°C
Medicago rugosa Desr.	TP; BP	20°C	14d		ISTA
Medicago sativa L.	TP; BP	20°C	10d	pre-chill	ISTA
	BP; S	20°C	7d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe, test at 17°-18°C	AOSA
Medicago scutellata (L.) Mill.	TP; BP	20°C	14d		ISTA
Medicago truncatula Gaertn.	TP; BP	20°C	10d		ISTA
Medicago x varia T. Martyn.	TP; BP	20°C	10d	pre-chill	ISTA
Melilotus alba Medic.	TP; BP	20°C	7d	pre-chill	ISTA
	BP; S	20°C	7d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Melilotus indica (L.) All.	TP; BP	20°C	14d		ISTA
	BP	20°C	14d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Melilotus officinalis (L.) Pall.	TP; BP	20°C	7d	pre-chill	ISTA
	BP; S	20°C	7d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Mucuna deeringiana (Bort.) Merr.	TP; S	20°/30°C; 32°C	14d	cut seed	ISTA
	BP; S	20°/30°C	14d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Onobrychis viciifolia Scop.	TP; BP; S	20°/30°C; 20°C	14d	pre-chill	ISTA
	BP	20°/30°C	14d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Ornithopus sativus Brot.	TP; BP	20°C	14d		ISTA
Pachyrhizus tuberosus (Lam.) A. Spreng		20°/30°C	14d		Atwater
Phaseolus angularis (Willd.) W.F. Wight	BP; S	20°/30°C	10d		ISTA
Phaseolus aureus Roxb.	BP; S	20°/30°C; 25°C	7d		ISTA
Phaseolus coccineus L.	BP; S	20°/30°C; 20°C	9d		ISTA
	BP; S	20°/30°C	9d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Phaseolus limensis Macf.	S	25°C	9d		ISTA
Phaseolus lunatus L.	BP; S	20°/30°C; 25°C	9d		ISTA
	BP; S	20°/30°C	9d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Phaseolus mungo L.	BP; S	20°/30°C; 25°C; 20°C	7d		ISTA
Phaseolus vulgaris L.	BP; S	20°/30°C; 25°C; 20°C	9d		ISTA
	BP; S	20°/30°C; 25°C	8d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Pisum sativum L.	BP; S	20°C	8d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	ISTA/AOSA
Psophocarpus tetragonolobus (L.) DC.	BP; S	20°/30°C; 30°C	14d		ISTA
	BP	20°/30°C	28d	scarify with emery paper	A
Pueraria lobata (Willd.) Ohwi	BP	20°/30°C	14d		ISTA
	BP	20°/30°C	14d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Pueraria phaseoloides (Roxb.) Benth.	TP	25°C	10d	scarify, concentrated sulphuric acid, extend test 7d if hard seeds have begun to imbibe	ISTA
		20°C	40d	pre-soak, 26h	Atwater
Robinia pseudoacacia L.	TP	20°/30°C	14d	pierce, chip or file cotyledon end of testa, then pre-soak, 3h, or scarify, concentrated sulphuric	ISTA
				acid, then wash
	BP	20°C	21d	clip, file testa, or scarify, concentrated sulphuric acid, 1h	AOSA
				file or percussion, shake 20 min	Atwater
				scarify, boiling water, concentrated sulphuric acid, or mechanical	G&R
Sesbania exaltata (Raf.) Rydb.	BP	20°/30°C	7d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe	AOSA
Sophora spp.				chip, then pre-soak	G&R
Spartium junceum L.	TP	20°C	14d	pierce, chip or file cotyledon end of testa, then pre-soak, 3h	ISTA
		20°C	21d	pre-soak	Atwater
Stylosanthes fructicosa	TP	25°C; 30°/25°C;	14d	dark, dehull, scarify	McIvor
		25°-35°/20°C
Stylosanthes guianensis (Aubl.) Sw.	TP	20°/35°C; 20°/30°C	10d	scarify, concentrated sulphuric acid, extend test 7d if hard seeds have begun to imbibe	ISTA
	TP	25°C; 30°/20°-25°C;	14d	dark, dehull, scarify	McIvor
		35°/20°C
Stylosanthes hamata (L.) Taub.	TP	20°/35°C; 10°/35°C	10d		ISTA
	TP	25°C; 25°-40°/20°C	14d	dark, dehull, scarify	McIvor
	TP	25°C	10d	pre-dry, 75°C, 85°C, 1,2h	M&M
Stylosanthes humilis HBK	TP	20°/30°C; 10°/35°C	5d	cut seed	ISTA
	TP	25°C	14d	scarify, if necessary scarify again subsequently	Cameron
	TP	25°C	10d	pre-dry, 75°C, 85°C, 1,2h	M&M
	TP	25°C; 25°-35°/20°C;	14d	dark, dehull, scarify	McIvor
		30°/25°C			Ballard
	TP	20°/30°C(2h/6h,	14d	dehull, scarify
		2-6h/18-22h, 18h/6h)
	TP	30°C	3d	scarify, thiourea, co-applied, 0.1 M, 0.2 M	B&B
(pods)	TP	25°C	10d	after 7d cut off proximal 1/3rd of ungerminated pods	Holm
(pods)	TP	10°/35°C(1.5h/4.5h);	10d	cut off proximal end of pods	Butler
		20°/35°C(16h/8h)
Stylosanthes scabra Vog.	TP	20°/35°C	10d		ISTA
	TP	25°C; 25°-35°/20°C;	14d	dark, dehull, scarify	McIvor
		30°/25°C
	TP	25°C	10d	pre-dry, 75°C, 85°C, 1,2h	M&M
Stylosanthes subsericea	TP	25°C; 35°/25°C;	14d	dark, dehull, scarify	McIvor
		25°-40°/20°C
Stylosanthes viscosa Sweet	TP	25°C; 30°-35°/25°C;	14d	dark, dehull, scarify	McIvor
		25°-40°/20°C
	TP	25°C	10d	pre-dry, 75°C, 85°C, 1,2h	M&M
Tephrosia vogellii Hook,				presoak, 54°C, 5 min	Atwater
Trifolium alexandrinum L.	TP; BP	20°C	7d		ISTA
	BP; S	20°C	7d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe, test at 15°C, 17°-18°C	AOSA
Trifolium campestre Schreber	TP; BP	20°C	14d		ISTA
	BP	20°C	14d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe, test at 15°C, 17°-18°C	AOSA
Trifolium dubium Sibth.	TP; BP	20°C	14d	pre-chill	ISTA
	BP	20°C	14d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe, test at 15°C, 17°-18°C	AOSA
Trifolium fragiferum L.	TP; BP	20°C	7d		ISTA
	BP	20°C	7d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe, test at 15°C, 17°-18°C	AOSA
Trifolium glomeratum L.	TP; BP	20°C	10d		ISTA
	BP	20°C	10d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe, test at 15°C, 17°-18°C	AOSA
Trifolium hirtum All.	TP; BP	20°C	10d		ISTA
	BP	20°C	10d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe, test at 15°C, 17°-18°C	AOSA
Trifolium hybridum L.	TP; BP	20°C	10d	pre-chill, sealed polythene envelope	ISTA
	BP; S	20°C	7d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe, test at 15°C, 17°-18°C	AOSA
Trifolium incarnatum L.	TP; BP	20°C	7d	pre-chill, sealed polythene envelope	ISTA
	BP; S	20°C	7d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe, test at 15°C, 17°-18°C	AOSA
Trifolium lappaceum L.	TP; BP	20°C	7d	pre-chill	ISTA
	BP	20°C	7d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe, test at 15°C, 17°-18°C	AOSA
Trifolium pratense L.	TP; BP	20°C	10d	pre-chill	ISTA
	BP; S	20°C	7d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe, test at 15°C, 17°-18°C	AOSA
Trifolium repens L.	TP; BP	20°C	10d	pre-chill, sealed polythene envelope	ISTA
	BP; S	20°C	7d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe, test at 15°C, 17°-18°C	AOSA
Trifolium resupinatum L.	TP; BP	20°C	7d		ISTA
	BP	20°C	7d	continue test for a further 5d if (reversible) hard seeds have begun to imbibe, test at 15°C, 17°