[1] [1] Shabala H H，Sci B J P. Salt stress sensing and early signaling events in plant roots： current knowledge and hypothesis[J]. Plant Science，2015，241： 109-119.

[2] [2] Yuan F，Ly M J，Leng B Y，et al. Comparative transcriptome analysis of developmental stages of theLimonium bicolorleaf generates insights into salt gland differentiation[J]. Plant，cell and environment，2015，38： 1637-1657.

[3] [3] Munns R. Genes and salt tolerance： bringing them together[J]. New Phytologist，2005，167 (3)： 645-663.

[4] [4] Ruan C J，Silva J A T D，Mopper S，et al. Halophyte improvement for a salinized world[J]. Critical Reviews in Plant Science，2010，29 (6)： 329-359.

[5] [5] Munns R，Tester M. Mechanisms of salinity tolerance[J]. Annual Review of Plant Biology，2008，59： 651-681.

[8] [8] Wei D，Zhang W，Wang C，et al. Genetic engineering of the biosynthesis of glycinebetaine leads to alleviate salt-induced potassium efflux and enhances salt tolerance in tomato plants[J]. Plant Science，2017，257： 74-83.

[9] [9] Juan B L，Moreno J R，Gamez-Arjona F M，et al. Upstream kinases of plant SnRKs are involved in salt stress tolerance[J]. Plant Journal，2018，93 (1)： 107-118.

[10] [10] Morton M J L，Awlia M，Al-Tamimi N，et al. Salt stress under the scalpel-dissecting the genetics of salt tolerance[J]. Plant Journal，2019，97(1)： 148-163.

[14] [14] Yuan F，Wang B S. Adaptation of recretohalophytes to salinity[J]. Grigore，M N. Handbook of Halophytes，2020： 1-21.

[15] [15] Guo J R，Du M，Tian H Y，et al. Exposure to high salinity during seed development markedly enhances seedling emergence and fitness of the progeny of the extreme halophyteSuaeda salsa[J]. Frontiers in Plant Science，2020，11： 1291.

[17] [17] Liu L L，Wei X C，Yang Z，et al. SbCASP-LP1C1 improves salt exclusion by enhancing the root apoplastic barrier[J]. Plant Molecular Biology，2023，111(1-2)： 73-88.

[18] [18] Jarvis D E，Ho Y S，Lightfoot D J，et al. The genome ofChenopodium quinoa[J]. Nature，2017，542(7641)： 307-312.

[19] [19] Yuan F，Wang X，Zhao B Q，et al. The genome of the recretohalophyteLimonium bicolorprovides insights into salt gland development and salinity adaptation during terrestrial evolution[J]. Molecular Plant，2022，15： 1024-1044.

[20] [20] Yuan F，Xu Y Y，Leng B Y，et al. Beneficial effect of salt on halophyte growth： morphology，cell，and gene[J]. Open Life Sciences，2019，14： 191-200.

[21] [21] Wang J，Qiu N W，Wang P，et al. Na＋compartmentation strategy of Chinese cabbage in response to salt stress[J]. Plant Physiology and Biochemistry，2019，140：151-157.

[22] [22] Li Q，Song J. Analysis of widely targeted metabolites of the euhalophyteSuaeda salsaunder saline conditions provides new insights into salt tolerance and nutritional value in halophytic species[J]. BMC Plant Biology，2019，19(1)： 645-663.

[23] [23] Krishnamurthy P，Ranathunge K，Franke R，et al. The role of root apoplastic transport barriers in salt tolerance of rice (Oryza sativaL．)[J]．Planta，2009，230（1）： 119-134.

[24] [24] Chen M，Yang Z，Liu J，et al. Adaptation mechanism of salt excluders under saline conditions and its applications[J]. International Journal of Molecular Sciences，2018，19，3668.

[26] [26] Krishnamurthy P，Ranathunge K，Nayak S，et al. Root apoplastic barriers block Na＋transport to shoots in rice (Oryza sativaL．)[J]. Journal of Experimental Botany，2011，62 （12）： 4215-4228.

[29] [29] Ding T，Yang Z，Wei X，et al. Evaluation of salt-tolerant germplasm and screening of the salt-tolerance traits of sweet sorghum in the germination stage[J]. Functional Plant Biology，2018，45 (10)： 1073-1081.

[30] [30] Wu H，Guo J R，Wang C F，et al. An effective screening method and a reliable screening trait for salt tolerance ofBrassica napusat the germination stage[J]. Frontiers in Plant Scienceence，2019.

[31] [31] Dai Y X，Zhang H L，Wang H R，et al. Identification of candidate genes for salt tolerance at the germination stage in japonica rice by genome-wide association analysis[J]. Agriculture，2022，12(10)： 1588-1588.

[32] [32] Giaveno C D，Ribeiro R V，Souza G M，et al. Screening of tropical maize for salt stress tolerance[J]. Crop Breeding And Applied Biotechnology，2007，7 (3)： 304-313.

[41] [41] Roy S J，Negro S，Tester M. Salt resistant crop plants[J]. Current Opinion in Biotechnology，2014，26115-124.