Sevda Norouzi's scientific contributions
What is this page?
This page lists the scientific contributions of an author, who either does not have a ResearchGate profile, or has not yet added these contributions to their profile.
It was automatically created by ResearchGate to create a record of this author's body of work. We create such pages to advance our goal of creating and maintaining the most comprehensive scientific repository possible. In doing so, we process publicly available (personal) data relating to the author as a member of the scientific community.
If you're a ResearchGate member, you can follow this page to keep up with this author's work.
If you are this author, and you don't want us to display this page anymore, please let us know.
It was automatically created by ResearchGate to create a record of this author's body of work. We create such pages to advance our goal of creating and maintaining the most comprehensive scientific repository possible. In doing so, we process publicly available (personal) data relating to the author as a member of the scientific community.
If you're a ResearchGate member, you can follow this page to keep up with this author's work.
If you are this author, and you don't want us to display this page anymore, please let us know.
Publication (1)
Connecting tropical rainforests to larger rivers, tropical headwaters export large quantities of carbon and nutrients as dissolved organic matter (DOM), and are thus a key component of the global carbon cycle. This DOM transport is not passive, however; sunlight and microbial activity alter DOM concentrations and compositions, affecting riverine gr...
Citations
... When there are high concentrations of soluble oxygen in the water, a lower concentration of COD, that is to say organic material, is anticipated. The high level of microbial activity occurring and the breaking down of organic material perpetually entering the lake are associated (Spray et al., 2021). Inlet had the maximum mean ammoniacal nitrogen concentration (0.163 ± 0.004 mg/L) in the spring, followed by Trapa abundance site (0.148 ± 0.006 mg/L) and outlet (0.125 ± 0.001 mg/L). ...
![[object Object]](https://i1.rgstatic.net/ii/profile.image/735364364910592-1552335935952_Q64/James-Spray.jpg)
![[object Object]](https://i1.rgstatic.net/ii/profile.image/272406480683038-1441958174687_Q64/Thomas-Wagner-6.jpg)
![[object Object]](https://i1.rgstatic.net/ii/profile.image/814643022946310-1571237440562_Q64/Sara-Trojahn.jpg)
![[object Object]](https://i1.rgstatic.net/ii/profile.image/1022314154057733-1620750096794_Q64/Ryan-Pereira-3.jpg)
