LEADER 01247nam2-2200385---450 001 990005700040203316 005 20200506121302.0 035 $a000570004 035 $aUSA01000570004 035 $a(ALEPH)000570004USA01 035 $a000570004 100 $a20061120d2003----|||y0itaa50------ba 101 $ager 102 $ade 105 $a0 00||| 200 1 $a<<1.: >> Selected papers. 1.$fGustav Bergmann$g[edited by Erwin Tegtmeier] 210 $aFrankfurt am Main ; Ontos$cHansel Hohenhausen$d2003 215 $a350 p.$d22 cm. 225 2 $aReprint philosophy$emodern classics of analytical philosophy$fedited by Rafael Huntelmann, Erwin Tegtmeier, Kathe Trettin$v1 410 0$12001$aReprint philosophy$v1 461 0$1001000569911$12001$aCollected works$v1 620 $dFRANKFURT AM MAIN 676 $a149.2 700 1$aBERGMANN,$bGustav$0615424 702 1$aTEGTMEIER,$bErwin 801 0$aIT$bSA$c20111219 912 $a990005700040203316 950 0$aDipar.to di Filosofia - Salerno$dDFAA 149.2 BER$e8185 FIL 951 $aAA 149.2 BER$b8185 FIL 959 $aBK 969 $aFIL 979 $c20121027$lUSA01$h1526 979 $c20121027$lUSA01$h1615 996 $aSelected papers. 1$91083874 997 $aUNISA LEADER 02734nam 2200373 450 001 9910683393903321 005 20230626092439.0 010 $a3-0365-6572-8 035 $a(CKB)5680000000300095 035 $a(NjHacI)995680000000300095 035 $a(EXLCZ)995680000000300095 100 $a20230626d2023 uy 0 101 0 $aeng 135 $aur||||||||||| 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 00$aWild Halophytes $eTools for Understanding Salt Tolerance Mechanisms of Plants and for Adapting Agriculture to Climate Change /$fedited by Oscar Vicente, Marius-Nicusor Grigore? 210 1$aBasel :$cMDPI - Multidisciplinary Digital Publishing Institute,$d2023. 215 $a1 online resource (268 pages) 311 $a3-0365-6573-6 330 $aHalophytes are a fascinating group of wild plants adapted to highly saline natural habitats, where most plant species and all our conventional crops would not survive. In fact, some halophytes can withstand even seawater salinity. In the current climate change scenario, increasing average temperatures and drought episodes contribute to the accelerated salinisation of irrigated cropland, especially in arid and semiarid regions, by the progressive accumulation in the soil of salts dissolved in irrigation water. This 'secondary salinisation' is one of the major causes of reducing crop yields worldwide. In this context, halophytes represent ideal experimental systems to investigate the mechanisms plants use to respond to high-salinity conditions. This knowledge will be essential for the genetic improvement of crop salt tolerance, which represents the most sensible strategy to address the abovementioned problem. Furthermore, halophytes could be the basis of a sustainable, 'saline' agriculture, after domestication and some breeding to improve agronomic characteristics. Then, they could be commercially cultivated for food, feed, fibre, or the production of biomolecules of industrial interest. Since they could be grown in saline land and irrigated with brackish water, they will not compete with our conventional crops for these limited resources, fertile land and good-quality water for irrigation. The articles included in this Special Issue address these different aspects of halophytes' research, although most focus on basic studies on salt-tolerance mechanisms. 517 $aWild Halophytes 606 $aHalophytes 615 0$aHalophytes. 676 $a581.42 702 $aGrigore?$b Marius-Nicusor 702 $aVicente$b Oscar 801 0$bNjHacI 801 1$bNjHacl 906 $aBOOK 912 $a9910683393903321 996 $aWild Halophytes$93392923 997 $aUNINA