Let $X\to D$ be a proper $C^\infty$ map with $D$ an open disk about the origin in some Euclidean space. Suppose $0\in D$ is the only singular value, i.e that over $D^\times=D\setminus \left\{ 0 \right\}$ the map is a submersion. A choice of Riemannian metric on $X$ furnishes a notion of gradient. Flowing along $-\nabla\|f\|^2_2$ furnishes a map $X\to f^{-1}(0)$ pushing the generic fibers radially inwards into the special fiber (this tacitly requires properness). Precomposition defines the *specialization map* for any $t\in B^\times$ from a generic fiber to the special fiber.$$\psi_t:f^{-1}(t)\to f^{-1}(0)$$

**Question 1.** It is geometrically intuitive that specialization maps with respect to different Riemannian metrics are homotopic. Is this true? How to prove it?

**Remark.** It's been asked [here](https://mathoverflow.net/questions/265869/specialization-map-and-fibration) whether the specialization map is surjective. Nobody's answered yet!

According to [MO](https://mathoverflow.net/a/228631/69037) and many other sources,

> A vanishing cycle is a homology class of the generic fibre that shrinks to zero in the special fibre.

"Shrinking in the special fiber" seems to suggest following the specialization map. It seems an elementary interpretation of a **vanishing $n$-cycle** is an element in the kernel of $\pi_n(\psi_t)$ or $\mathrm H_n(\psi_t)$, i.e an $n$-cycle that dies upon specialization. Similarly, an **emerging $n$-cycle** would be an element of the associated cokernel (or at least complement of the image).

**Question 2.** In [this paper](http://www.jointmathematicsmeetings.org/tran/2002-354-09/S0002-9947-02-02972-0/S0002-9947-02-02972-0.pdf) by Meigniez, the author gives a direct definition of (representative of) vanishing and emerging cycles, but seems to have the reverse convention for direction. He writes on page 2 "when moving from a given fiber to
immediately neighboring ones over some path in the base", which is opposite from the direction of specialization. Is this convention used elsewhere?

**Question 3.** Where are emerging cycles in the literature? Alternatively, what's the "role played by vanishing cycles" as opposed to emerging cycles?