424:, and so are only an approximation of the level of once living or decomposed matter. Some definitions of organic matter likewise only consider "organic matter" to refer to only the carbon content or organic compounds and do not consider the origins or decomposition of the matter. In this sense, not all organic compounds are created by living organisms, and living organisms do not only leave behind organic material. A clam's shell, for example, while
557:
The same capability of natural organic matter that helps with water retention in the soil creates problems for current water purification methods. In water, organic matter can still bind to metal ions and minerals. The purification process does not necessarily stop these bound molecules but does not
520:
Organic matter is important in water and wastewater treatment and recycling, natural aquatic ecosystems, aquaculture, and environmental rehabilitation. It is, therefore, important to have reliable methods of detection and characterisation, for both short- and long-term monitoring. Various analytical
491:
Some reactions occur with organic matter and other materials in the soil to create compounds never seen before. Unfortunately, it is challenging to characterize these because so little is known about natural organic matter in the first place. Research is currently being done to determine more about
267:
is characterized by intense changes in the natural process of soil organic matter (SOM) turnover, resulting from relatively moderate intervention with the soil. The phenomenon is generally caused by either pulsed or continuous changes to inputs of fresh organic matter (FOM). Priming effects usually
201:
and woody materials fall to the forest floor. This is sometimes referred to as organic material. When it decays to the point in which it is no longer recognizable, it is called soil organic matter. When the organic matter has broken down into a stable substance that resists further decomposition it
288:
depending on the reaction of the soil with the added substance. A positive priming effect results in the acceleration of mineralization while a negative priming effect results in immobilization, leading to N unavailability. Although most changes have been documented in C and N pools, the priming
272:
such as the FOM inputs. The cause of this increase in decomposition has often been attributed to an increase in microbial activity resulting from higher energy and nutrient availability released from the FOM. After the input of FOM, specialized microorganisms are believed to grow quickly and only
112:
are composed of organic compounds. In life, they secrete or excrete organic material into their environment, shed body parts such as leaves and roots and after organisms die, their bodies are broken down by bacterial and fungal action. Larger molecules of organic matter can be formed from the
1238:
Barré, Pierre; Plante, Alain F.; Cécillon, Lauric; Lutfalla, Suzanne; Baudin, François; Bernard, Sylvain; Christensen, Bent T.; Eglin, Thomas; Fernandez, Jose M.; Houot, Sabine; Kätterer, Thomas; Le
Guillou, Corentin; Macdonald, Andy; van Oort, Folkert; Chenu, Claire (October 2016).
316:
The priming effect has been found in many different studies and is regarded as a common occurrence, appearing in most plant soil systems. However, the mechanisms which lead to the priming effect are more complex than originally thought, and still remain generally misunderstood.
401:
and decomposition, in comparison with other pools where microbial degraders get less return from the energy they invest. By extension, soil microorganisms preferentially mineralize high-energy organic matter, avoiding decomposing less energetically dense organic matter.
113:
polymerization of different parts of already broken down matter. The composition of natural organic matter depends on its origin, transformation mode, age, and existing environment, thus its bio-physicochemical functions vary with different environments.
276:
Other soil treatments, besides organic matter inputs, which lead to this short-term change in turnover rates, include "input of mineral fertilizer, exudation of organic substances by roots, mere mechanical treatment of soil or its drying and rewetting."
213:
is that it improves the capacity of a soil to hold water and nutrients, and allows their slow release, thereby improving the conditions for plant growth. Another advantage of humus is that it helps the soil to stick together which allows
770:
Ochoa-Hueso, R; Delgado-Baquerizo, M; King, PTA; Benham, M; Arca, V; Power, SA (2019). "Ecosystem type and resource quality are more important than global change drivers in regulating early stages of litter decomposition".
1328:
Cabaniss, Steve, Greg Madey, Patricia
Maurice, Yingping Zhou, Laura Leff, Ola Olapade, Bob Wetzel, Jerry Leenheer, and Bob Wershaw, comps. Stochastic Synthesis of Natural Organic Matter. UNM, ND, KSU, UNC, USGS. 22 Apr.
826:
Steve
Cabaniss, Greg Madey, Patricia Maurice, Yingping Zhou, Laura Leff, Olacheesy head Bob Wetzel, Jerry Leenheer, and Bob Wershaw, comps, Stochastic Synthesis of Natural Organic Matter, UNM, ND, KSU, UNC, USGS, 22 Apr
392:
availability and processing. In terrestrial ecosystems the energy status of soil organic matter has been shown to affect microbial substrate preferences. Some organic matter pools may be energetically favorable for the
312:
was coined, including priming action, added nitrogen interaction (ANI), extra N and additional N. Despite these early contributions, the concept of the priming effect was widely disregarded until about the 1980s-1990s.
387:
of organic matter including its chemical properties and other environmental parameters. Metabolic capabilities of the microbial communities play a crucial role on decomposition since they are highly connected with the
341:
Recent findings suggest that the same priming effect mechanisms acting in soil systems may also be present in aquatic environments, which suggests a need for broader considerations of this phenomenon in the future.
1332:
Cho, Min, Hyenmi Chung, and Jeyong Yoon. "Disinfection of Water
Containing Natural Organic Matter by Using Ozone-Initiated Radical Reactions." Abstract. Applied and Environmental Microbiology Vol. 69 No.4 (2003):
1306:
Cho, Min, Hyenmi Chung, and Jeyong Yoon, "Disinfection of Water
Containing Natural Organic Matter by Using Ozone-Initiated Radical Reactions," Abstract, Applied and Environmental Microbiology Vol. 69 No.4 (2003):
1336:
Fortner, John D., Joseph B. Hughes, Jae-Hong Kim, and Hoon Hyung. "Natural
Organic Matter Stabilizes Carbon Nanotubes in the Aqueous Phase." Abstract. Environmental Science & Technology Vol. 41 No. 1 (2007):
562:, which essentially clogs water filtration systems in water purification facilities, as the by-products are larger than membrane pore sizes. This clogging problem can be treated by chlorine disinfection (
558:
cause harm to any humans, animals, or plants. However, because of the high reactivity of organic matter, by-products that do not contain nutrients can be made. These by-products can induce
221:
There are several ways to quickly increase the amount of humus. Combining compost, plant or animal materials/waste, or green manure with soil will increase the amount of humus in the soil.
300:
plants in soil. He noticed that when adding fresh organic residues to the soil, it resulted in intensified mineralization by the humus N. It was not until 1953, though, that the term
179:
Organisms decompose into organic matter, which is then transported and recycled. Not all biomass migrates, some is rather stationary, turning only over the course of millions of years.
157:. When the groundwater saturates the soil or sediment around it, organic matter can freely move between the phases. Groundwater has its own sources of natural organic matter including:
760:
Nicola Senesi, Baoshan Xing, and P.M. Huang, Biophysico-Chemical
Processes Involving Natural Nonlifiidulfitving Organic Matter in Environmental Systems, New York: IUPAC, 2006.
238:
These three materials supply nematodes and bacteria with nutrients for them to thrive and produce more humus, which will give plants enough nutrients to survive and grow.
1347:
Senesi, Nicola, Baoshan Xing, and P.m. Huang. Biophysico-Chemical
Processes Involving Natural Nonliving Organic Matter in Environmental Systems. New York: IUPAC, 2006.
125:
and is cycled through decomposition processes by soil microbial communities that are crucial for nutrient availability. After degrading and reacting, it can move into
1354:
1291:
488:
attacks from other electron-donating or electron-accepting material, which explains the possible polymerization to create larger molecules of organic matter.
468:
The molecular weights of these compounds can vary drastically, depending on if they repolymerize or not, from 200 to 20,000 amu. Up to one-third of the
521:
detection methods for organic matter have existed for up to decades to describe and characterise organic matter. These include, but are not limited to:
328:
The priming effect can arise either instantaneously or very shortly (potentially days or weeks) after the addition of a substance is made to the soil.
101:. Organic matter is very important in the movement of nutrients in the environment and plays a role in water retention on the surface of the planet.
273:
decompose this newly added organic matter. The turnover rate of SOM in these areas is at least one order of magnitude higher than the bulk soil.
1062:
Nottingham, A.T.; Griffiths, Chamberlain; Stott, Tanner (2009). "Soil priming by sugar and leaf-litter substrates: A link to microbial groups".
859:
Tori M. Hoehler & Bo Barker Jørgensen "Microbial life under extreme energy limitation" Nature
Reviews Microbiology 2013, vol 11, p 83
1370:
512:(POM). They are typically differentiated by that which can pass through a 0.45 micrometre filter (DOM), and that which cannot (POM).
876:
534:
1097:
Guenet, B.; Danger; Abbadie; Lacroix (October 2010). "Priming effect:bridging the gap between terrestrial and aquatic ecology".
902:
1027:
Fontaine, Sebastien; Mariotti, Abbadie (2003). "The priming effect of organic matter: a question of microbial competition?".
745:
228:
Plant and animal material and waste: dead plants or plant waste such as leaves or bush and tree trimmings, or animal manure.
1355:
https://web.archive.org/web/20070928102105/http://www.awwarf.org/research/TopicsAndProjects/topicSnapShot.aspx?Topic=Organic
597:, which attributed a special force to life that alone could create organic substances. This idea was first questioned after
206:. Thus soil organic matter comprises all of the organic matter in the soil exclusive of the material that has not decayed.
31:
73:. Organic molecules can also be made by chemical reactions that do not involve life. Basic structures are created from
1353:"Topic Snapshot: Natural Organic Material." American Water Works Association Research Foundation. 2007. 22 Apr. 2007
1289:"Topic Snapshot: Natural Organic Material", American Water Works Association Research Foundation, 2007, 22 April 2007
945:
Kuzyakov, Y.; Friedel, J.K.; Stahr, K. (October 2000). "Review of mechanisms and quantification of priming effects".
17:
1288:
585:
radicals (OH) when it decomposes, which will react with the organic matter to shut down the problem of biofouling.
501:
500:
Aquatic organic matter can be further divided into two components: (1) dissolved organic matter (DOM), measured as
380:. If bacteria or fungi were not present on Earth, the process of decomposition would have proceeded much slower.
1340:"Researchers Study Role of Natural Organic Matter in Environment." Science Daily 20 Dec. 2006. 22 Apr. 2007
331:
The priming effect is larger in soils that are rich in C and N as compared to those poor in these nutrients.
689:
1395:
1390:
635:
509:
546:
439:
Organic matter is heterogeneous and very complex. Generally, organic matter, in terms of weight, is:
1360:
United States of
America. United States Geological Survey. Earth's Water Distribution. 10 May 2007.
926:
University of Florida. The Institute of Food and Agricultural Sciences Feb. 2009 Web 10 October 2009
567:
526:
505:
141:
in the environment. The buffer acting component has been proposed to be relevant for neutralizing
1341:
542:
477:
337:
The size of the priming effect increases as the amount of added treatment to the soil increases.
1350:"Table 1: Surface Area, Volume, and Average Depth of Oceans and Seas." Encyclopædia Britannica.
350:
One suitable definition of organic matter is biological material in the process of decaying or
263:
234:: plants or plant material that is grown for the sole purpose of being incorporated with soil.
133:
via waterflow. Organic matter provides nutrition to living organisms. Organic matter acts as a
566:), which can break down residual material that clogs systems. However, chlorination can form
476:
in which the carbon atoms form usually six-membered rings. These rings are very stable due to
292:
Löhnis was the first to discover the priming effect phenomenon in 1926 through his studies of
989:
Kuzyakov, Y. (2010). "Priming effects: Interactions between living and dead organic matter".
538:
394:
1367:
714:
320:
Although there is a lot of uncertainty surrounding the reason for the priming effect, a few
1252:
1202:
1106:
1071:
1036:
998:
954:
780:
640:
630:
522:
436:
is one of many organic compounds that can be synthesized without any biological activity.
8:
1321:
838:
210:
188:
1256:
1206:
1142:"Energy use efficiency of soil microorganisms: Driven by carbon recycling and reduction"
1110:
1075:
1040:
1002:
958:
880:
784:
598:
358:. A closer look at the biological material in the process of decaying reveals so-called
175:
organic matter infiltrating into the subsurface from rivers, lakes, and marine systems."
1361:
806:
670:
665:
620:
563:
1048:
966:
306:
The effect of the addition of organic material on the decomposition of an organic soil
1268:
1240:
1220:
1171:
1163:
1122:
741:
650:
610:
593:
The equation of "organic" with living organisms comes from the now-abandoned idea of
530:
411:
359:
906:
810:
480:, so they are challenging to break down. The aromatic rings are also susceptible to
1260:
1210:
1153:
1114:
1079:
1044:
1006:
962:
860:
796:
788:
736:
Sejian, Veerasamy; Gaughan, John; Baumgard, Lance; Prasad, Cadaba (31 March 2015).
417:
377:
109:
58:
50:
1010:
792:
53:
found within natural and engineered, terrestrial, and aquatic environments. It is
1374:
1295:
1083:
660:
425:
250:
134:
473:
429:
289:
effect can also be found in phosphorus and sulfur, as well as other nutrients.
1264:
1384:
1272:
1224:
1215:
1190:
1167:
1061:
481:
384:
351:
1175:
1126:
485:
363:
293:
231:
197:
derives from plants, animals and microorganisms. In a forest, for example,
98:
1366:
Water Sheds: Organic Matter. North Carolina State University. 1 May 2007
1241:"The energetic and chemical signatures of persistent soil organic matter"
715:"NASA Goddard Instrument Makes First Detection of Organic Matter on Mars"
655:
246:
198:
154:
1191:"A Bioenergetic Framework for Assessing Soil Organic Matter Persistence"
924:“Organic Matter, Green Manures and Cover Crops For Nematode Management.”
864:
801:
432:, so it may not be considered organic matter in this sense. Conversely,
559:
1158:
1141:
1118:
769:
218:, or microscopic bacteria, to easily decay the nutrients in the soil.
578:
577:-initiated radical reactions. The ozone (three oxygens) has powerful
398:
142:
122:
74:
334:
Real priming effects have not been observed in sterile environments.
594:
582:
462:
456:
370:
215:
62:
923:
615:
242:
162:
90:
469:
450:
444:
421:
389:
369:
The main processes by which soil molecules disintegrate are by
297:
86:
78:
70:
54:
1342:
https://www.sciencedaily.com/releases/2006/12/061211221222.htm
1189:
Williams, Elizabeth K.; Plante, Alain F. (26 September 2018).
944:
738:
Climate Change Impact on Livestock: Adaptation and Mitigation
625:
574:
374:
355:
203:
130:
94:
82:
66:
549:. Each of these methods has its advantages and limitations.
1237:
735:
433:
194:
166:
126:
1096:
984:
982:
980:
978:
976:
1368:
http://www.water.ncsu.edu/watershedss/info/norganics.html
1026:
940:
938:
936:
934:
932:
1022:
1020:
973:
153:
Some organic matter not already in the soil comes from
138:
929:
879:. U.S. Environmental Protection Agency. Archived from
416:
Measurements of organic matter generally measure only
1017:
822:
820:
324:
have emerged from the collection of recent research:
268:
result in an acceleration of mineralization due to a
1362:
http://ga.water.usgs.gov/edu/waterdistribution.html
492:these new compounds and how many are being formed.
817:
573:Water with organic matter can be disinfected with
366:) in the process of breaking up (disintegrating).
754:
1382:
1140:Wang, Chaoqun; Kuzyakov, Yakov (November 2023).
1188:
253:, where it is relied upon especially heavily.
116:
1284:
1282:
535:nuclear magnetic resonance (NMR) spectroscopy
61:that have come from the feces and remains of
1319:
1139:
836:
729:
308:. Several other terms had been used before
304:was given by Bingeman in his paper titled,
137:in aqueous solutions to maintain a neutral
1279:
1214:
1157:
800:
988:
121:Organic matter is common throughout the
918:
916:
601:artificially synthesized urea in 1828.
14:
1383:
241:Soil organic matter is crucial to all
182:
552:
249:, but it is especially emphasized in
225:Compost: decomposed organic material.
913:
405:
32:Biological material (disambiguation)
27:Matter composed of organic compounds
24:
1324:. United States Geological Survey.
25:
1407:
841:. United States Geological Survey
296:decomposition and its effects on
256:
172:soil and sediment organic matter.
161:organic matter deposits, such as
1322:"Organic Matter in Ground Water"
839:"Organic Matter in Ground Water"
502:colored dissolved organic matter
345:
1313:
1300:
1231:
1182:
1133:
1090:
1055:
1029:Soil Biology & Biochemistry
991:Soil Biology & Biochemistry
947:Soil Biology & Biochemistry
895:
148:
30:Other meanings can be found at
869:
853:
830:
763:
707:
682:
280:Priming effects can be either
49:refers to the large source of
13:
1:
1049:10.1016/s0038-0717(03)00123-8
1011:10.1016/J.Soilbio.2010.04.003
967:10.1016/S0038-0717(00)00084-5
793:10.1016/j.soilbio.2018.11.009
773:Soil Biology and Biochemistry
676:
581:characteristics. It can form
1084:10.1016/J.Apsoil.2009.03.003
515:
104:
7:
604:
588:
383:Various factors impact the
117:Natural ecosystem functions
89:, along with other various
10:
1412:
1195:Frontiers in Earth Science
636:Sedimentary organic matter
539:infrared (IR) spectroscopy
510:particulate organic matter
495:
409:
186:
29:
1294:28 September 2007 at the
1265:10.1007/s10533-016-0246-0
547:fluorescence spectroscopy
209:An important property of
1216:10.3389/feart.2018.00143
717:. NASA. 16 December 2014
690:"Natural Organic Matter"
568:disinfection by-products
506:dissolved organic carbon
428:, does not contain much
397:resulting in their fast
543:UV-Visible spectroscopy
478:resonance stabilization
193:The organic matter in
51:carbon-based compounds
47:natural organic matter
1373:14 March 2014 at the
1320:George Aiken (2002).
1146:Global Change Biology
837:George Aiken (2002).
395:microbial communities
1064:Applied Soil Ecology
953:(11–12): 1485–1498.
883:on 25 September 2006
641:Total organic carbon
631:Organic geochemistry
364:biological molecules
1257:2016Biogc.130....1B
1207:2018FrEaS...6..143W
1111:2010Ecol...91.2850G
1076:2009AppSE..42..183N
1041:2003SBiBi..35..837F
1003:2010SBiBi..42.1363K
959:2000SBiBi..32.1485K
909:on 8 November 2006.
903:"Soil Health Terms"
877:"Organic Materials"
865:10.1038/nrmicro2939
785:2019SBiBi.129..144O
378:enzymatic catalysis
211:soil organic matter
189:Soil organic matter
183:Soil organic matter
671:Organic production
666:Cellular component
553:Water purification
474:aromatic compounds
1396:Organic chemistry
1391:Organic compounds
1159:10.1111/gcb.16925
1152:(22): 6170–6187.
1119:10.1890/09-1968.1
1105:(10): 2850–2861.
747:978-81-322-2265-1
651:Biological tissue
611:Biofact (biology)
531:mass spectrometry
418:organic compounds
412:Organic chemistry
406:Organic chemistry
360:organic compounds
59:organic compounds
18:Organic materials
16:(Redirected from
1403:
1325:
1308:
1304:
1298:
1286:
1277:
1276:
1235:
1229:
1228:
1218:
1186:
1180:
1179:
1161:
1137:
1131:
1130:
1094:
1088:
1087:
1059:
1053:
1052:
1024:
1015:
1014:
997:(9): 1363–1371.
986:
971:
970:
942:
927:
920:
911:
910:
905:. Archived from
899:
893:
892:
890:
888:
873:
867:
857:
851:
850:
848:
846:
834:
828:
824:
815:
814:
804:
767:
761:
758:
752:
751:
733:
727:
726:
724:
722:
711:
705:
704:
702:
700:
686:
599:Friedrich Wöhler
529:organic carbon,
322:undisputed facts
110:Living organisms
43:organic material
21:
1411:
1410:
1406:
1405:
1404:
1402:
1401:
1400:
1381:
1380:
1375:Wayback Machine
1316:
1311:
1305:
1301:
1296:Wayback Machine
1287:
1280:
1245:Biogeochemistry
1236:
1232:
1187:
1183:
1138:
1134:
1095:
1091:
1060:
1056:
1025:
1018:
987:
974:
943:
930:
921:
914:
901:
900:
896:
886:
884:
875:
874:
870:
858:
854:
844:
842:
835:
831:
825:
818:
768:
764:
759:
755:
748:
734:
730:
720:
718:
713:
712:
708:
698:
696:
688:
687:
683:
679:
661:Biotic material
607:
591:
555:
518:
508:(DOC), and (2)
498:
414:
408:
348:
259:
251:organic farming
191:
185:
151:
129:and mainstream
119:
107:
34:
28:
23:
22:
15:
12:
11:
5:
1409:
1399:
1398:
1393:
1379:
1378:
1364:
1358:
1351:
1348:
1345:
1338:
1334:
1330:
1326:
1315:
1312:
1310:
1309:
1299:
1278:
1230:
1181:
1132:
1089:
1070:(3): 183–190.
1054:
1035:(6): 837–843.
1016:
972:
928:
912:
894:
868:
852:
829:
816:
762:
753:
746:
728:
706:
680:
678:
675:
674:
673:
668:
663:
658:
653:
646:Compare with:
644:
643:
638:
633:
628:
623:
618:
613:
606:
603:
590:
587:
554:
551:
517:
514:
497:
494:
472:present is in
466:
465:
459:
453:
447:
430:organic carbon
410:Main article:
407:
404:
347:
344:
339:
338:
335:
332:
329:
310:priming effect
302:priming effect
264:priming effect
258:
257:Priming effect
255:
236:
235:
229:
226:
187:Main article:
184:
181:
177:
176:
173:
170:
150:
147:
118:
115:
106:
103:
39:Organic matter
26:
9:
6:
4:
3:
2:
1408:
1397:
1394:
1392:
1389:
1388:
1386:
1376:
1372:
1369:
1365:
1363:
1359:
1356:
1352:
1349:
1346:
1343:
1339:
1335:
1331:
1327:
1323:
1318:
1317:
1303:
1297:
1293:
1290:
1285:
1283:
1274:
1270:
1266:
1262:
1258:
1254:
1251:(1–2): 1–12.
1250:
1246:
1242:
1234:
1226:
1222:
1217:
1212:
1208:
1204:
1200:
1196:
1192:
1185:
1177:
1173:
1169:
1165:
1160:
1155:
1151:
1147:
1143:
1136:
1128:
1124:
1120:
1116:
1112:
1108:
1104:
1100:
1093:
1085:
1081:
1077:
1073:
1069:
1065:
1058:
1050:
1046:
1042:
1038:
1034:
1030:
1023:
1021:
1012:
1008:
1004:
1000:
996:
992:
985:
983:
981:
979:
977:
968:
964:
960:
956:
952:
948:
941:
939:
937:
935:
933:
925:
919:
917:
908:
904:
898:
882:
878:
872:
866:
862:
856:
840:
833:
823:
821:
812:
808:
803:
798:
794:
790:
786:
782:
778:
774:
766:
757:
749:
743:
739:
732:
716:
710:
695:
691:
685:
681:
672:
669:
667:
664:
662:
659:
657:
654:
652:
649:
648:
647:
642:
639:
637:
634:
632:
629:
627:
624:
622:
619:
617:
614:
612:
609:
608:
602:
600:
596:
586:
584:
580:
576:
571:
569:
565:
561:
550:
548:
544:
540:
536:
532:
528:
524:
513:
511:
507:
503:
493:
489:
487:
483:
482:electrophilic
479:
475:
471:
464:
460:
458:
454:
452:
448:
446:
442:
441:
440:
437:
435:
431:
427:
423:
419:
413:
403:
400:
396:
391:
386:
385:decomposition
381:
379:
376:
372:
367:
365:
361:
357:
353:
346:Decomposition
343:
336:
333:
330:
327:
326:
325:
323:
318:
314:
311:
307:
303:
299:
295:
290:
287:
283:
278:
274:
271:
266:
265:
254:
252:
248:
244:
239:
233:
230:
227:
224:
223:
222:
219:
217:
212:
207:
205:
200:
196:
190:
180:
174:
171:
168:
164:
160:
159:
158:
156:
146:
144:
140:
136:
132:
128:
124:
114:
111:
102:
100:
99:carbohydrates
96:
92:
88:
84:
80:
76:
72:
68:
64:
60:
56:
52:
48:
44:
40:
36:
33:
19:
1314:Bibliography
1302:
1248:
1244:
1233:
1198:
1194:
1184:
1149:
1145:
1135:
1102:
1098:
1092:
1067:
1063:
1057:
1032:
1028:
994:
990:
950:
946:
922:Crow, W. T.
907:the original
897:
885:. Retrieved
881:the original
871:
855:
843:. Retrieved
832:
802:10261/336676
776:
772:
765:
756:
740:. Springer.
737:
731:
719:. Retrieved
709:
697:. Retrieved
693:
684:
645:
592:
572:
564:chlorination
556:
519:
499:
490:
486:nucleophilic
467:
438:
415:
382:
368:
349:
340:
321:
319:
315:
309:
305:
301:
294:green manure
291:
285:
281:
279:
275:
269:
262:
260:
240:
237:
232:Green manure
220:
208:
192:
178:
152:
149:Source cycle
120:
108:
57:composed of
46:
42:
38:
37:
35:
887:19 November
779:: 144–152.
656:Biomolecule
352:decomposing
247:agriculture
245:and to all
199:leaf litter
155:groundwater
1385:Categories
1333:2284–2291.
1307:2284-2291.
694:GreenFacts
677:References
560:biofouling
504:(CDOM) or
354:, such as
202:is called
1273:0168-2563
1225:2296-6463
1168:1354-1013
579:oxidation
527:dissolved
516:Detection
399:oxidation
371:bacterial
216:nematodes
143:acid rain
123:ecosystem
105:Formation
75:cellulose
63:organisms
1371:Archived
1337:179–184.
1292:Archived
1176:37646316
1127:21058546
811:92606851
621:Detritus
605:See also
595:vitalism
589:Vitalism
583:hydroxyl
463:nitrogen
457:hydrogen
286:negative
282:positive
91:proteins
65:such as
1253:Bibcode
1203:Bibcode
1201:: 143.
1107:Bibcode
1099:Ecology
1072:Bibcode
1037:Bibcode
999:Bibcode
955:Bibcode
845:28 July
781:Bibcode
721:28 July
699:28 July
616:Biomass
496:Aquatic
449:35–45%
443:45–55%
270:trigger
243:ecology
163:kerogen
71:animals
1271:
1223:
1174:
1166:
1125:
809:
744:
545:, and
470:carbon
451:oxygen
445:carbon
426:biotic
422:carbon
390:energy
375:fungal
298:legume
135:buffer
97:, and
95:lipids
87:lignin
85:, and
79:tannin
67:plants
55:matter
1329:2007.
827:2007.
807:S2CID
626:Humus
575:ozone
523:total
461:1–4%
455:3–5%
356:humus
204:humus
131:water
83:cutin
45:, or
1269:ISSN
1221:ISSN
1172:PMID
1164:ISSN
1123:PMID
889:2006
847:2019
742:ISBN
723:2019
701:2019
525:and
484:and
434:urea
261:The
195:soil
167:coal
165:and
127:soil
69:and
1261:doi
1249:130
1211:doi
1154:doi
1115:doi
1080:doi
1045:doi
1007:doi
963:doi
861:doi
797:hdl
789:doi
777:129
420:or
373:or
284:or
1387::
1281:^
1267:.
1259:.
1247:.
1243:.
1219:.
1209:.
1197:.
1193:.
1170:.
1162:.
1150:29
1148:.
1144:.
1121:.
1113:.
1103:91
1101:.
1078:.
1068:42
1066:.
1043:.
1033:35
1031:.
1019:^
1005:.
995:42
993:.
975:^
961:.
951:32
949:.
931:^
915:^
819:^
805:.
795:.
787:.
775:.
692:.
570:.
541:,
537:,
533:,
145:.
139:pH
93:,
81:,
77:,
41:,
1377:.
1357:.
1344:.
1275:.
1263::
1255::
1227:.
1213::
1205::
1199:6
1178:.
1156::
1129:.
1117::
1109::
1086:.
1082::
1074::
1051:.
1047::
1039::
1013:.
1009::
1001::
969:.
965::
957::
891:.
863::
849:.
813:.
799::
791::
783::
750:.
725:.
703:.
362:(
169:.
20:)
Text is available under the Creative Commons Attribution-ShareAlike License. Additional terms may apply.